111 2 3 4
Designing Better Buildings
5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
Designing is widely recognised as the key...
265 downloads
2386 Views
16MB Size
Report
This content was uploaded by our users and we assume good faith they have the permission to share this book. If you own the copyright to this book and it is wrongfully on our website, we offer a simple DMCA procedure to remove your content from our site. Start by pressing the button below!
Report copyright / DMCA form
111 2 3 4
Designing Better Buildings
5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
Designing is widely recognised as the key to improving the quality of the built environment. This
322
well-illustrated book comprises 18 chapters written by leading practitioners, clients and academics,
4
and presents the latest thinking on design quality and value. For designers and their clients alike, it
5
provides evidence to justify greater emphasis on, and investment in, design. It summarises the
6
benefits that arise from good design – such as civic pride and urban regeneration, corporate identity,
7
occupant productivity and health in offices, improved learning outcomes in schools, better patient
8
recovery rates in hospitals, as well as reduced environmental impact. And it illustrates these benefits
9
through case study examples.
30
Part One describes the perspective of clients and what they expect from design. Part Two
1
presents case studies in various sectors – offices, schools, healthcare buildings – to explain how and
2
why the designs came about. Part Three addresses the processes necessary to achieve design
3
quality. Part Four discusses the issue of whether and how design quality can be measured.
4
The book is intended for construction industry practitioners, particularly in architectural,
5
engineering, planning, surveying and project management practices, as well as clients responsible for
6
commissioning buildings and civil engineering projects. It will be an essential text book for many
7
university courses in the built environment, including architecture, engineering, construction, planning
8
and urban design.
9 40 1 2 3 4 5
611
Designing Better Buildings Quality and Value in the Built Environment
Edited by Sebastian Macmillan 1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
First published 2004 by Spon Press 11 New Fetter Lane, London EC4P 4EE Simultaneously published in the USA and Canada by Spon Press 29 West 35th Street, New York, NY 10001
This edition published in the Taylor & Francis e-Library, 2004. Spon Press is an imprint of the Taylor & Francis Group © 2004 Editorial and selection, Taylor & Francis, individual chapters – the authors All rights reserved. No part of this book may be reprinted or reproduced or utilised in any form or by any electronic, mechanical, or other means, now known or hereafter invented, including photocopying and recording, or in any information storage or retrieval system, without permission in writing from the publishers. British Library Cataloguing in Publication Data A catalogue record for this book is available from the British Library Library of Congress Cataloging in Publication Data Designing better buildings/edited by Sebastian Macmillan p. cm. Includes bibliographical references and index. 1. Architectural design. I. Macmillan, Sebastian. NA2750.D4168 2003 721–dc21
2003006275
ISBN 0-203-56332-8 Master e-book ISBN
ISBN 0-203-33707-7 (Adobe eReader Format) ISBN
0–415–31525–5 (hb) 0–415–31526–3 (pb)
111
Contents
2 3 4 5 6 7 8 9 10 1 2 3 4
Illustration acknowledgements
vi
Notes on Contributors
vii
Preface
xiv xviii
care, Susan Francis
100 107
11 Adding value through better urban design, Matthew Carmona
1 Design as a value generator Sebastian Macmillan
sector, Bryan Lawson 10 Making special places for health
Foreword: Challenges for designers, Robin Nicholson
5
9 Assessing benefits in the health
116
1
The perspective of clients
16 21
Adrian Leaman, Bill Bordass Peter Trebilcock
of good design,
145 157
33 value
and using buildings,
171
15 Inclusive maps,
Raymond Evans, Richard Haryott, 42
Sunand Prasad
175
16 Achieving quality in building design by intention, Michael Dickson
Part Two: Case studies of added value
51
17 Building indicators of design quality, Ammon Salter
need for new valuation methods, Jon Rouse
185
55
195
18 Housing quality indicators in practice, Paul Wheeler
7 Measuring and improving
206
functionality and performance, Terry Wyatt
72
Index
216
8 Design quality in new schools, Richard Feilden
9 20 1
322 4 5 6 7 8 9 30 2 3 4 5 6 7 8
Jennifer Whyte, David Gann,
6 Measuring value or only cost: the
8
1
Part Four: Measuring quality and
5 The long-term costs of owning
Norman Haste, Alan Jones
135
14 Managing design and construction,
4 Client’s perspective on the value Dickon Robinson
values, Giles Oliver 13 Flexibility and adaptability,
3 Learning more from what we build, Bill Bordass
131
12 Design qualtiy needs conscious
2 Clients and quality, Tony Pollington
buildings
13
7
2
Part Three: Delivering better Part One:
6
9 40 1 2 3 4 5
86
611
v
Illustration acknowledgements
The authors and publisher wish to thank those listed below for their permission to reproduce material:
Figures 4.2 Raf Makda/VIEW; 4.3a and b Timothy Soar; 4.4 Raf Makda/VIEW; 6.1 Dennis Gilbert/VIEW; 6.2 Diana Edmunds; 6.3 Peter Cook/VIEW; 6.4 Richard Bryant/Arcaid; 6.5 Dennis Gilbert/VIEW; 6.6 Martine Hamilton Knight; 6.7 and 6.8 Peter Cook/VIEW; 7.1 Peter Cook/VIEW; 7.8 Adam Wilson; 7.9 Chris Gascoigne/VIEW; 8.4–8.7 Hampshire County Council Architects; 8.11 Brian Edwards; 8.12 Simon Doling; 14.1–14.3 Louis Hellman.
Plates 1 and 2 Raf Makda/VIEW; 3, 4 and 5 Dennis Gilbert/VIEW; 6 and 7 Peter Cook/VIEW; 8 and 9 Dennis Gilbert/VIEW; 10, 11 and 12 Peter Cook/VIEW; 13 Paul Rattigan/VIEW; 14 Tom Scott/VIEW.
vi
111
Notes on contributors
2 3 4 5 6 7 8 9 10 1 2 3 4 5
Bill Bordass
UCL. Previously he worked as a lecturer at the
6
Bill Bordass moved from science research to
University of Nottingham and before that as a
7
the multi-skilled design practice RMJM London.
researcher and as an architect in private
8
He worked on briefing, planning, and
practice. He is particularly interested in the
9
environmental impact, and became associate in
policy context for delivering better design
20
charge of building services, energy and
quality in the built environment, having worked
1
environmental design. Working on new, existing
on a range of research projects examining
2
and historic buildings, he became particularly
design policies in local plans, residential design
322
interested in monitoring environmental and
policy and guidance, best value in planning and
4
energy performance, investigating technical
urban design, the working relationships
5
problems, and using the results to inform
between housing providers and planners, and
6
briefing, design and management. In 1984 he
the management of public space. Currently, he
7
set up William Bordass Associates, which does
holds a position on the CABE Urban Design
8
post-occupancy and energy surveys, monitoring,
Skills Working Group, and is a member of the
9
troubleshooting, briefing, research management
RTPI Council. He is also on the editorial board
30
and publication. His main interest is in how
of Urban Design Quarterly, and is Book
1
buildings and their engineering and control
Reviews Editor for the Journal of Urban Design.
2 3
systems actually work, and the implications for clients, specification, design, benchmarking,
Michael Dickson
4
procurement and management. He is a
Michael Dickson is an engineer who studied
5
member of the Probe Team, which undertakes
mechanical sciences at Cambridge University
6
post-occupancy studies of technical and energy
followed by structural engineering and town
7
performance and occupant and management
planning at Cornell University, USA. He has
8
satisfaction in recent buildings, and publishes
worked on a wide range of major building
9
them in Building Services Journal. He is
engineering and urban regeneration projects
40
currently leading a project on feedback with the
such as headquarters buildings for IBM and
1
UK Confederation of Construction Clients.
British Airways in England, headquarters for
2
RWE Essen in Germany, a new main line
3
Matthew Carmona
station for Stuttgart 21, a large urban
4
Matthew Carmona is a Reader in planning and
development in the centre of Shanghai, and the
5
urban design at the Bartlett School of Planning,
Japanese Pavilion in Hannover. Michael is
611
vii
Designing Better Buildings
Founding Partner and Chairman of Buro
where he has had particular responsibility for
Happold Consulting Engineers. He was recently
educational buildings and PFI schools projects.
Chairman of the IStructE Working Group Building for a Sustainable Future – Construction
Susan Francis
without Depletion and a member of Lord
Susan Francis is a senior architectural advisor to
Justice Taylor’s Working Group on the Safety of
the Future Healthcare Network at the NHS
Sports Grounds. He is a Director of the Theatre
Confederation, and to the Centre for Health
Royal, Bath, and is Chairman of the
Architecture and Design at NHS Estates. She is
Construction Industry Council, and of its
also a research architect at the Medical
Steering Group for the Design Quality Indicator.
Architecture Research Unit (MARU) at South Bank University, specialising in research and
Raymond Evans
postgraduate training for the planning and
Raymond Evans joined the building services
design of health buildings. Studies include post-
industry in 1962 as a trainee mechanical
occupancy evaluations, design guidance and
engineer with a major contractor. He joined the
project reviews. She has contributed to national
consulting practice of Donald Smith Seymour
and international conferences and published
and Rooley in 1974, was the resident overseas
articles in the medical and design press. Recent
partner in the UK practice in 1985 and the
publications have focused on developing an
managing partner of the London office in 1997.
understanding of hospital heritage in Europe
Major services projects undertaken include
and the relationship of art and architecture in
Canary Wharf Tower, North Terminal Gatwick,
making therapeutic environments. Susan was
and Chelsea and Westminster Hospital.
co-author of a recent study, Building a 2020 Vision: Future healthcare environments, that
Richard Feilden
scanned current developments in the
Richard Feilden was a founding partner of
modernisation of care and design, setting
Feilden Clegg Bradley in 1978. The practice has
out a blueprint for patient-centred care and
now grown to 75 staff, with offices in Bath and
quality of design. She is leading the team for
London. He developed particular interests in
the evaluation of the ongoing King’s Fund
user involvement, environmental design and the
Enhancing the Healing Environment
creative re-use of buildings while studying at
programme.
Cambridge and the Architectural Association. He has been involved with many of the
David Gann
practice’s award-winning projects, including
David Gann is director of the Innovation Studies
John Cabot CTC and student housing for Aston
Centre, Imperial College London, where he
University and King Alfred’s College. He has
holds the Chair in Technology and Innovation
been extensively involved in the practice’s work
Management. His main areas of research are
for education, and is a former convenor of the
on innovation in the built environment, and the
Higher Education Design Quality Forum. He
management of technical change in project-
was a special Advisor to the Urban Task Force
based firms. He has been involved in the
chaired by Richard Rogers and this led to a
Design Quality Indicator project from its
particular interest in urban design. He was
inception. He is a Board member of Rethinking
awarded an OBE in 1999 and is Visiting
Construction and the Housing Forum in the UK.
Professor of Architecture at the University of
He has worked extensively with government
Central England. In 2000 he was appointed a
departments in the UK and in other
Commissioner at the Commission for
countries and has provided advice to industry,
Architecture and the Built Environment (CABE)
and to agencies such as the OECD on
viii
Notes on contributors
policies for innovation and technical
the Institution of Civil Engineers and of the
111
development.
Institution of Highways and Transportation. He
2
was awarded the OBE in 1996 for services to
3
civil engineering.
4
Richard Haryott
5
Richard Haryott joined Arup in 1962 after graduating from Leeds University with a degree
Alan Jones
6
in Civil Engineering. He joined the Main Board
Alan Jones joined BICC pIc as Chief Executive
7
in 1984, with responsibilities that included
in April 1995. After taking an engineering
8
overseeing the firm’s project management
degree at King’s College Cambridge, he joined
9
capabilities, education and training and quality
GEC in 1961. In 1973 he moved to Plessey
10
systems. Major projects under his direction
where, in 1975, he was appointed MD of
1
included the Sainsbury Wing of the National
Plessey Marine and in 1980, additionally, MD of
2
Gallery, the Glaxo Wellcome Medicines
Plessey Radar. He joined the main Board as
3
Research Centre at Stevenage, and the UK
International Director in 1985 and from 1987 to
4
Pavilion at Expo 92 in Seville. In 1969 he helped
1989 was MD of Plessey Electronic Systems
5
create the multidisciplinary engineering design
Group. In 1989 he was appointed Chief
6
capability that is now a core business for the
Executive of Westland. In 1994 Westland was
7
firm. He is currently Chairman of the firm’s
taken over by GKN and Alan Jones joined the
8
Corporate Services Division. He was Chairman
GKN Board. He is a Fellow of the Royal
9
of the Steel Construction Institute from
Academy of Engineering, a Fellow of the
20
1994–1998. He is a Fellow of the Royal
Institution of Electrical Engineers, a Fellow of
1
Academy of Engineering. He is also currently
the Royal Aeronautical Society, and a Member
2
Chairman of the Joint Board of Moderators,
of the President’s Committee at the CBI.
322 4
which accredits engineering courses at over 100 universities in the UK and overseas on
Bryan Lawson
5
behalf of the Institutions of Civil, Structural and
Bryan Lawson is Professor of Architecture
6
Building Services Engineers.
at the University of Sheffield. Formerly Head of
7
the School of Architecture, he is now Dean
8
Norman Haste OBE
of the Faculty of Architectural Studies. He is
9
Norman Haste has spent most of his career
also Distinguished Visiting Professor to the
30
working on major civil engineering projects and
Faculty of Design and Environment at the
1
was Project Director for the Second Severn
National University of Singapore. Bryan Lawson
2
Crossing linking England and Wales. He was
studied at the Oxford School of Architecture,
3
appointed Project Director for the proposed
followed by a period in the Applied Psychology
4
Terminal 5 Development at Heathrow and
Department at the University of Aston in
5
handled the infrastructure issues integrating the
Birmingham where he obtained his Masters and
6
project with both the Heathrow Express and
Doctorate. He is a qualified architect and has
7
the Piccadilly line. He joined Crossrail as Chief
practised in both the public and private sectors.
8
Executive in 2002. His interest in the long-term
He has particular experience of design for
9
cost of owning and operating buildings is
healthcare. His research has been mainly
40
mainly in the area of balancing capital costs
concerned with the design process, computer-
1
with achieving flexibility for maintenance and
aided design, and architectural psychology. His
2
adaptability for long-term use. Modular
books include How Designers Think and Design
3
construction with standardisation in the use of
in Mind, which deal with the nature and
4
components is of particular interest. He is a
practice of design, and The Language of Space
5
Fellow of the Royal Academy of Engineering, of
which explores the psychology of spatial
611
ix
Designing Better Buildings
behaviour. His contemporary work concentrates
research on the design and management of the
on the briefing and feedback processes in
built environment. He has written many
design and how clients and users can
publications for the government’s Energy
contribute to those processes. His work has
Efficiency Best Practice programme and, more
been funded by EPSRC, DETR, DTI, EEC, RIBA,
recently, for the Construction Best Practice
ARCUK and NHS.
Programme. He has a part-time appointment at Cambridge University’s Martin Centre where he
Adrian Leaman
is responsible for coordinating the Centre’s
Adrian Leaman is a social scientist who
research programme, and has studied the
specialises in occupant feedback, briefing of
business process of interdisciplinary design. He
building designers and managers, and strategic
wrote the technical manual Environmental
planning. His main interests are the behaviour
Management for Hotels: The industry guide to
and attitudes of building users, and design and
best practice, and jointly edited a book on
management problems related to briefing,
Interdisciplinary Design in Practice. He was
usability and human performance in buildings,
seconded to the Engineering and Physical
the workplace and cities. He carried out
Sciences Research Council as Sector
pioneering and influential research work on
Programme Manager for Construction,
occupant health in buildings in the 1980s. His
1999–2001. He is active in various construction
current work now covers human,
sector improvement initiatives including
environmental and investment issues relating
Technology Foresight and the Construction
to buildings users’ needs. He carried out the
Research and Innovation Strategy Panel.
occupancy surveys for the internationally acknowledged Probe studies of building
Giles Oliver
performance. He has presented his work at
Giles Oliver is an architect in practice with
conferences around the world, and has written
Penoyre and Prasad Architects. He is also an
over 100 publications. He has been managing
affiliated lecturer at the University of Cambridge
director of Building Use Studies (BUS) since
School of Architecture where he is visiting tutor
1987 and, between 1993 and 1997 he was a
to the Interdisciplinary Design for the Built
member of the Institute of Advanced
Environment Master’s programme, for which he
Architectural Studies, University of York. In
was founding coordinator in 1993. In July 1999
1998 he was Visiting Professor at the
he was invited to chair the Construction
Department of Real Estate and Project
Research and Innovation Strategy Panel’s
Management at the University of Delft,
Design Task Group, and its report and
Netherlands. He has also worked at the
recommendations form the basis of his
Science Policy Research Unit (University of
contribution to this book (Chapter 12). His built
Sussex), the Royal Institute of British Architects
work has included social housing, special needs
and the Bartlett School of Architecture.
housing, community and healthcare buildings and, more recently, master planning for urban
Sebastian Macmillan
regeneration in Gravesend and East London.
Sebastian Macmillan trained as an architect at
His special interest is in deepening the terms
Liverpool University, before writing his Ph.D. at
within which health and the environment are
the Royal College of Art. He is a member of the
understood, championed and realised in
Royal Institute of British Architects, and ran an
practice. He regularly contributes reviews of
architectural practice for ten years. In 1984 he
completed projects to Architecture Today and
set up Eclipse, a consultancy specialising in
other architectural periodicals.
x
Notes on contributors
Tony Pollington
Dickon Robinson
111
Tony Pollington was previously a Civil Servant,
Dickon Robinson started his career with a
2
serving in the Ministry of Public Building and
management consultancy engaged in
3
Works, the Department of Transport, the
environmental and behavioural research. He
4
Department of the Environment, and the
then worked as an architect in private practice,
5
Property Services Agency. He gained
designing hospitals and housing schemes.
6
experience in town and country planning as
During this period, he was a founder member
7
Regional Controller (Planning) for DoE Eastern
and first Chair of the Soho Housing Association
8
Region, and in procurement for the PSA. He is
and was involved in community action groups
9
a member of the Chartered Institute of
in the West End, including the Save Piccadilly
10
Purchasing and Supply. In 1995, having retired
Campaign and the Soho Society. In 1975, he
1
from the Civil Service, he was asked to assist
joined the London Borough of Camden Housing
2
in establishing the Construction Clients Forum
Department. As Assistant Director of Housing
3
(CCF), now the Confederation of Construction
for Property Services he was responsible for
4
Clients (CCC). The CCC brings together public
the Council’s Housing Investment Programme,
5
and private sector clients of the construction
building new homes and modernising older
6
industry to promote improvements in the
estates. He joined the Peabody Trust in 1988 as
7
industry through collaboration between
Director of Development and Technical Services
8
suppliers and clients.
and has been responsible for leading the greatly
9
expanded new build and modernisation
20
Sunand Prasad
programmes which have repositioned Peabody
1
Sunand Prasad is a founding partner of Penoyre
as a key London regeneration agency. He was
2
and Prasad Architects, a London-based practice
the Chair of the Foyer Federation between
322
known for designing a diverse range of award-
1992/2001 and is a Board member of St
4
winning buidings. He is a Commissioner of
Mungo’s. He is a CABE Commissioner, a
5
CABE (the Commission for Architecture and the
member of the English Heritage Urban Panel
6
Built Environment) and founder of the
and patron of the Urban Design Group. As a
7
Constructive Change group of the Royal
West End resident for the past 25 years, he
8
Institute of British Architects which organised
has a particular interest in mixed use
9
the conference that led to this book. He has
developments, harnessing the arts to
30
been a member of the RIBA Awards Group and
regeneration projects and promoting innovative
1
Health Clients Forum and a vice-president of
construction and architectural excellence.
2 3
the Architectural Association. Sunand’s theoretical work includes architecture and
Jon Rouse
4
cultural diversity, the exploration of the value of
Jon Rouse is Chief Executive of the
5
design, North Indian urbanism and domestic
Commission for Architecture and the Built
6
architecture and writings on Le Corbusier. He
Environment. CABE is the Government’s
7
played a key part in the development of the
architecture champion for England, charged
8
Construction Industry Council’s Design Quality
with facilitating improvements in the quality of
9
Indicators and led the compilation of the
the whole of the built environment – buildings
40
standard guide: Accommodating Diversity:
and the spaces in between. Jon was previously
1
Housing design in a multicultural society.
Secretary to the Urban Task Force, and Policy
2
Sunand has taught and lectured in many
and Communications Manager at the
3
schools of architecture in the UK and India,
Government’s urban regeneration agency,
4
acted as external examiner and continues to be
English Partnerships. Before that, he spent five
5
involved in teaching.
years at the Department of the Environment,
611
xi
Designing Better Buildings
including a spell as Private Secretary to the
on the RIBA Board, was a member of the
Minister for Housing and Local Government,
National Council 1997–2003, and is chairman of
as well as secondments to the London
the Membership and Regional Chairman’s
Borough of Ealing and the Energy Savings
committees.
Trust. He has a first degree in Law, and Masters in Urban Policy and Business
Paul Wheeler
Administration, specialising in corporate finance.
Paul Wheeler is a senior consultant at DEGW
He is an Honorary Fellow of RIBA and an
and the Director of the Workplace Forum, a
Honorary Member of the RTPI.
learning and research network exploring best practice in the workplace. He was one of the
Ammon Salter
DEGW team responsible for running the first
Ammon Salter is a Research Fellow in the
large-scale piloting of the Housing Quality
Innovation Studies Centre, the Business School,
Indicators system that DEGW developed for the
Imperial College London. He has a D.Phil in
Housing Corporation and the DETR. Since
Science and Technology Policy Studies from the
joining DEGW in 1999 he has worked in the
Science Policy Research Unit, University of
Research and Methods team applying his
Sussex. He has worked as a consultant and
interest in methodology, which dates back to
advisor on a number of innovation projects,
his academic studies on internal and external
including the Program on Globalisation and
research projects. He is the project coordinator
Regional Innovation Systems (Toronto
for the SANE Project (Sustainable
University) and research on Ontario’s Innovation
Accommodation for the New Economy), a
Systems. He was involved in a study of the
multidisciplinary European Commission-funded
Economic Benefits of Basic Research for the
research project into the future of the
UK Treasury. He is currently engaged in an
workplace. He is also closely involved with
EPSRC funded project on management of
DEGW’s client project teams reviewing
knowledge in dispersed and co-located teams
international best practice and developing novel and innovative working environments. Prior to
Peter Trebilcock
joining DEGW Paul worked in strategic research
Peter Trebilcock is Head of Architecture with
for Andersen Consulting and in business
the AMEC Group, where he leads the
journalism. His interest in research, research
architectural practice of over 60 architects and
approaches and methodologies developed as an
designers based in four UK offices. The Group’s
undergraduate studying philosophy, particularly
building projects extend across the UK and
philosophy of science, at UCL, and as a
internationally, and serve the needs of the
postgraduate at the LSE studying politics and
pharmaceutical, education, healthcare, defence,
economics.
manufacturing and transport sectors. Peter is a consultant architect to the Steel Construction
Jennifer Whyte
Institute and the author of several publications
Jennifer Whyte is a Research Fellow in the
concerned with steelwork and modular
Innovation Studies Centre at the Business
construction. He has lectured widely in the UK
School, Imperial College London. She is
and abroad, and been a competition judge in
interested in the design and visualisation of the
several national and regional architectural
built environment. She has worked on a series
competitions. He is a regular contributor to the
of projects for sponsors such as the
architectural press. Peter is actively involved in
Construction Industry Council, Design Council
the Royal Institute of British Architects as Vice
and the Department of Trade and Industry (DTI),
President (Membership 2001–2003); he served
including the Design Quality Indicators (DQI),
xii
Notes on contributors
and Design and Export projects. She has also
Southbank University). He joined consulting
111
conducted research on leading engineering and
engineers J. Roger Preston in London, where
2
design organisations in the UK and in the USA,
he gained experience on projects around the
3
exploring their use of advanced 3D visualisation
world. His current interests are in climate
4
tools and virtual reality. Jennifer worked in
change mitigation, integrated renewable energy
5
multidisciplinary architectural design practice in
for buildings, earth coupling systems, carbon
6
China before taking her Ph.D. at Loughborough
capture, emissions trading, and more effective
7
University’s Department of Civil and Building
workplace buildings to suit the future world of
8
Engineering. She has published widely in
work. He has lectured at the universities of
9
academic and trade journals, and recently
Bath, Nottingham, Oxford Brookes, Delft,
10
completed a book, Virtual Reality and the Built
Utrecht, and South Bank, and in many parts of
1
Environment, published by the Architectural
the USA and Europe. He has written some 300
2
Press.
papers and articles on subjects ranging from
3
engineering systems and building physics, to
4
Terry Wyatt
the performance and well-being of people in
5
Terry Wyatt is a partner with the consulting
buildings, and the demands implied by a
6
engineers Hoare Lea Partnership, where he has
‘sustainable future’. He was awarded the CIBSE
7
been Head of Research and Development for
Silver Medal 1995, gave the CIBSE Second
8
16 years. He began his career with an
Centenary Lecture in 1997, chairs the CIBSE
9
engineering apprenticeship in Portsmouth, and
Carbon Task Group, and is CIBSE President for
20
a Diploma at The National College (now
2003–2004.
1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
xiii
Foreword
Challenges for designers Robin Nicholson
100 years ago public buildings were often
The new opportunity
the pride of Britain’s towns and cities. Schools, railway stations, post offices and
As ever, there was no single blinding flash of
libraries set high standards of building
lightning, but rather a combination of
design that the private sector tried to
circumstances outside design that allowed the
emulate. The best embodied a strong
erosion of understanding and ambition for
sense of civic pride.
design quality to begin to be reversed.
More recently the public sector has too
However, the cultural prejudices that block the
often been associated with poor design and
way forward should not be underestimated. The key changes include:
bad management . . . Over the last few years Britain has
•
A general increase in wealth and the rise of
benefited from a host of new landmark
conspicuous spending on quality goods;
buildings, many of them funded through
this probably began with the rise of youth
the lottery. Now we need to apply the
culture and spending in the 1960s, reacting
same energy and imagination to improving the tens of thousands of everyday public
against post-war rationing and frugality •
buildings which play such a vital role in our lives.
The growth of interest in fashion, advertising and branded goods
•
The number of well-designed electronic goods such as cameras, personal
That was how the Prime Minister launched the excellent DCMS leaflet Better Public Buildings
computers and mobile telephones •
The explosion of lifestyle TV programmes
(DCMS, 2000). So what has brought about this
on cooking, gardening, DIY and interior
volte-face, what are the barriers to the
design – are we all designers now?
fulfilment of the Government’s new design
•
The implementation of the
ambitions and where are the opportunities to
recommendations of the Latham and Egan
deliver better designed buildings?
reports – Sir John Egan said at a RIBA
xiv
Robin Nicholson
workshop in 1998 ‘in any one sector only
these two extremes we find a recycled
111
one company can be the cheapest; the rest
Manchester warehouse skilfully transformed
2
of us have to design our way to the top’.
into designer living and working lofts above
3
stylish bars competing for our energies, or the
4
The whole industry has an obligation to future
serial makeover of Boots, Sainsbury’s or Job
5
generations to seize this opportunity to change
Centres. All these examples demonstrate the
6
our behaviour and examine our prejudices. This
need for inventive but appropriate and skilful,
7
book examines how, working together, we
integrated design and construction.
8
might exploit the new political and economic opportunities to commission, design and make a better, built environment for ourselves, our colleagues and our children.
9 10
Designing for people is complex
1 2 3
Ove Arup Director Richard Haryott’s paper for
Industrial background
the 2000 Birmingham M4I Conference explored
4 5
the business function of design:
6
It is easy for engineers and architects to join
7
with Tony Blair and mourn the passing of the
The five (Egan) drivers for change, the four
great days of inspired patronage by great
process improvements and the seven
clients, without necessarily recognising that,
targets cannot be achieved unless by
today, designers are an integral part of the
design, and through design. . . . Committed
largest industry in the country, representing 8
leaders in construction . . . have to
1
per cent of the GDP. Although 2 million people
understand, respect and exploit the design
2
turn over £64 billion each year, 50 per cent of
process, and not close it down into simple
322
the work is repair, maintenance and
compartments. If that is done, there is an
4
improvement and much of that is small or
inevitable certainty to optimise sub-
5
domestic work; it is hardly surprising then that
processes and not enhance the whole.
6
8 9
(Haryott, 2000)
80 per cent of construction firms employ less
While designers provide many different services for their clients, there is a wide range
7 8
than ten people and yet, consciously or unconsciously, it all has to be ‘designed’.
20
Bernard Rimmer of Slough Estates has
9
commented on the concentration on the
30
process at the expense of the product:
1 2
of prejudice, ignorance and general misconception about the value of good design.
The focus on the supply chain relationships,
3
Egan explains that the problem is not the
such as those between contractors and
4
industry’s acknowledged world class players, it
subcontractors/specialists will only yield
5
is ‘how to raise the average’; he rightly argues
modest percentage gains. More would be
6
for client-focused excellence and the proper
gained by placing the spotlight on design.
7
reintegration of design and construction.
. . . Design in its widest context, creates
8
most of the value for customers – and
9
most of the waste . . .
40
For example the Millennium Dome, designed by Buro Happold and the Richard Rogers Partnership, was a special one-off, an
(Rimmer, 2001)
1 2
innovative and integrated triumph designed and built on time and to budget. In contrast, the
Haryott and his colleagues have drawn attention
3
prefabricated standardised McDonald’s outlets
to the key research into the 1:5:200 relationship
4
built in three days are designed from a com-
of the initial cost of an office building – 1 – to the
5
pletely different business perspective. Between
whole-life costs of using the building – 5 – and
611
xv
Designing Better Buildings
the cost of the people using the building – 200.
establishment of the Commission for
This begins to focus attention on the benefits of
Architecture and the Built Environment has
well-designed workplaces, schools and hospitals
been a major driver of this change. CABE is
(see Chapter 5).
exercising its muscles at the highest levels in
Following on from Latham, Egan has got
Whitehall, while it is promoting the cause of
many of us rethinking the way we work. Initially
good design with a team of enablers and local
it was hard to argue the case for good design
champions around the country.
because the report focuses so much on the
We are of course always designing for
contractor and site processes. Nevertheless it is
unknown futures. Who could have predicted
now widely accepted that there is no point in
the ease of transforming those rapidly emptying
building faster and cheaper if the product is the
and unloved 1960s’ offices into valuable lofts?
wrong thing and badly designed.
Examine the changes made over the past ten
Sir John Egan’s essential challenge to
years to any building and one begins to despair
the construction industry was to turn itself into
at the idea of defining the Private Finance
a world-class manufacturing industry and to
Initiative (PFI) output specification for a health
offer client-driven ‘demonstration projects’ of
building over a 30-year period. And who can
how that can be done. Behind the hyperbole
imagine a long-term future for the low-
there are four critical ideas:
cost/high-profit, air-con-dependent deep plans of Canary Wharf? Or can the well-intentioned low-
•
Every manufacturing process goes from
energy deep plans of the Nucleus hospital
business case to design to manufacture
templates really have a long-life future?
through feedback to the next business
There are many older barriers that have
case; conventionally construction stops at
built up over time, as well as some newer
manufacture and there is little repeat work
ones. The older ones include:
to allow continuous improvement (the supermarkets were the first sector to •
•
The age-old difference between the cathedral and the bicycle shed leading to a
Continuous improvement requires the
belief that architecture is only for the one-
integration of design teams and
off set piece.
construction teams. •
•
exploit this successfully).
•
A view that mechanistic briefing can cause
Performance measurement is essential if
an innovative business to be frozen by the
we are all to become (more) profitable by
design of its new custom-designed
driving out waste in the spirit of ‘lean
building, leading to premature ossification
thinking’.
and financial collapse.
Customer satisfaction requires the
•
measurement of the users’ satisfaction and
the Treasury’s contrary guidance and the
feeding that forward into the next project cycle. Post-occupancy evaluation is still
Continuing a lowest price culture, despite demands of their best value inspectors.
•
wastefully rare in the UK.
Ever-lower levels of training, construction knowledge and skills.
•
Architecture being seen as art and for ‘them’.
Barriers to making the new world better
The newer ones include:
The change of mood is as welcome as it was
•
A very British make-do/anti-beauty culture,
unexpected. The Government’s closure of the
arising perhaps from a post-imperial
Royal Fine Art Commission and the
Puritanism.
xvi
Robin Nicholson
•
The star system – Rogers for the dome but
•
The potential for architecture as branding.
111
not for us, despite the 1960s’ youth culture
•
Realisation that post-occupancy evaluation
2
and pop; this makes it more difficult for
is essential to complete the business cycle,
3
the ordinary to be un-self-consciously
learning from the past to improve the next
4
well-done.
project.
5
The target of right-first-time, defect-free
6
advisors to understand that they cannot
construction which shop fitters manage to
7
have the best quality and the lowest cost in
do, would release designers to design.
8
The bringing together of the design
9
aspirations of CABE and the better
10
processes of Rethinking Construction
1
(CABE and Rethinking Construction, 2001).
2
The overlapping of New Labour policies of
3
design quality, urban regeneration,
4
integrated transport and sustainability,
5
It is difficult to imagine a richer moment for
which are necessarily cross-disciplinary, will
6
rethinking the value of design than now, if we
see our roles changing.
7
The Regional Development Agencies offer
8
immense opportunities if they can rise
9
above historic prejudices and break down
20
the barriers outlined above.
1
•
A failure by clients and their principal
the shortest time, without spending more
•
•
time and money on design up front.
Opportunities for making the new world better
can join together some of the new opportunities: •
New forms of procurement –
•
•
2
PFI, with the help of the Construction (Design and Management) Regulations (CDM) should lead to an appreciation of
322
Conclusion
4 5
what good design can offer but it can easily slide into a lowest common denominator, least-risk approach; perhaps PFI need not seem quite so novel if we study the work of Brunel and the Adam Brothers; –
Partnering relationships have great potential providing the whole team’s aspirations are kept high in an atmosphere of mutual respect, including the client’s.
•
I am convinced that the moment is ripe to
6
change our industry’s understanding of the
7
value of good design, and that includes most
8
critically our clients’ understanding. Never has Government given such support, and now the Treasury has been convinced that the well designed is better value on a whole-life basis. But good design is not easy and architectural
plans for the urban regeneration of the surrounding area. •
An acceptance in some quarters that the ordinary is immensely valuable and can be simply, beautiful; for example the work of Common Ground has shown the way in this.
1 2 4
innocent optimist.
5 6 7
References
8
serious businesses. Tate Modern was underpinned by sophisticated business
30
3
determinism has long been a trap for the
A growing understanding that the arts industries, including architecture, are
9
CABE and Rethinking Construction (2001) Celebrating Innovation, London: Commission for Architecture and the Built Environment. DCMS (2000) Better Public Buildings, London: Department for Culture, Media and Sport. Haryott, R. (2000) Defining roles for efficient business relationships and project management. Unpublished paper to Movement for Innovation Conference at NEC Birmingham. Rimmer, B. (2001) ‘Penny wise, pound foolish’, Construction for Business, no. 4, 17.
xvii
9 40 1 2 3 4 5
611
Preface
Design is widely cited as the key to improving
Commission, 2003). Is the rhetoric about the
the quality of the built environment and, as
value of design matched in reality?
Chapter 1 illustrates, there are many recent
This book is intended to help place
quotes from government sources and
design firmly centre stage. It illustrates many of
elsewhere promoting the benefits of ‘good
the benefits that flow from intellectual and
design’. But how does this work in practice?
economic investment in the design process and
For many years, there has been relentless
shows how good design can encourage civic
pressure to drive down design fees. Young
pride in the urban environment, stimulate urban
architects and engineers have enormous
regeneration, promote corporate identity,
difficulty becoming established in the early
improve health and productivity in offices, raise
years of their careers. Architectural
learning outcomes in schools, and hasten
competitions encourage them and others to
recovery in hospitals. It contains a number of
develop proposals speculatively in a costly
fundamental design principles that need to be
gamble to win a commission. While the
followed to raise the quality of our offices,
competitions system has its supporters, the
healthcare buildings, schools, houses and urban
impression is created that the refinement of a
developments. And it calls for design to be
brief during early design and the creative
understood not as something to be expected
process of generating one or more design
for free, nor criticised as a costly extra, but as a
concepts can be undertaken for little or no cost.
fundamental activity in which we need to invest
This is despite a widespread simultaneous
in order to improve the social, economic and
recognition that the early design stages of a
environmental performance of the built
project are where the greatest opportunities lie
environment.
for design to add value. Architects and engineers are in the
The book is illustrated with a series of case studies. Some are high-profile projects
process of losing, or have already largely lost,
renowned for architectural or urban merit,
design control over building projects through
others are examples of robust designs that
the rise of project management and new
meet demanding requirements from, for
procurement methods such as Design and Build
example, the defence sector. Each of the case
and the Private Finance Initiative. In the latter
studies illustrates some of the key elements
case, early indications suggest that design
that resulted in the achievement of design
quality is often compromised (Audit
quality. These vary from having a design
xviii
Preface
champion as a client; the building conceived as
formed a Task Group chaired by Giles Oliver.
111
a driver for organisational change; an
The Group commissioned a paper to identify
2
incremental process for exploring the costs and
and categorise academic research and industry
3
benefits of alternative environmental control
initiatives relating to design as a value
4
systems; or formal value engineering and value
generator. The group’s debates – updated to
5
management programmes.
reflect subsequent events – are vividly captured
6
in Chapter 12.
7
The book is intended for those who are engaged in design, particularly within
Other related initiatives were under way
8
architectural, engineering, planning, surveying
at the same time. The RIBA’s Future Studies
9
and project management practices, as well as
group had commissioned Ken Worpole and Eric
10
clients responsible for commissioning buildings
Loe each to write a booklet on the value of
1
and civil engineering projects. It illustrates what
architecture (Worpole, 2000; Loe, 2000). At the
2
‘good design’ is and how to achieve it, and
Movement for Innovation (M4I) conference in
3
provides a vocabulary and evidence by which
1999 a group of architects became concerned
4
designers can argue the case for the
that the M4I Key Performance Indicators (KPIs)
5
importance of what they do and what they
– which focus on construction process issues
6
contribute. It should be a useful text book for
such as timely completion, financial control and
7
many university courses in the built
safety on site would become the de facto
8
environment, including architecture,
measure of design quality for new buildings.
9
engineering, construction, planning and urban
Robin Nicholson, then chair of the Construction
20
design.
Industry Council (CIC) was among them, and in
1
consequence the CIC initiated a project to
2
devise design quality indicators, appointing the
322
Science Policy Research Unit as research
4
contractor.
5
The book’s origins The book’s origins lie in two separate but
The Constructive Change group’s
6
intimately linked initiatives, as well as in a
conference, Design Quality – the evidence, was
7
climate of opinion in which design is perceived
held at the RIBA in September 2000. Here,
8
as fundamental not only to the Rethinking
many of these initiatives came together for the
9
Construction initiative (Construction Task Force,
first time. There were presentations about the
30
1998), but also in relation to the urban
CRISP Task Group’s work, about recent and
1
renaissance (Urban Task Force, 1999; DETR,
current research into design, about the
2
2000).
emerging Design Quality Indicators; and also
3
about the Clients’ Charter and the work of the
4
Rethinking Construction, the RIBA’s Practice
Commission for Architecture and the Built
5
Committee formed the Constructive Change
Environment (CABE).
6
In response to the publication of
group in 1999, chaired by Sunand Prasad. The
Subsequently, the Constructive Change
7
group put together a booklet, Architects and
group determined that the emerging
8
the Changing Construction Industry (RIBA,
understanding about the relationship between
9
2000), which was widely circulated, and
design, quality and value in the built
40
decided to organise a one-day conference at
environment should be captured in the form of
1
the RIBA about the value of design.
a publication, and the members of the group
2
asked me to edit this book on their behalf. The
3
same year, the Construction Research and
chapters it contains go far beyond the
4
Innovation Strategy Panel (CRISP) identified that
presentations from the original conference and,
5
design was an under-researched topic, and
of course, those from the conference have
611
In another part of the forest and in the
xix
Designing Better Buildings
been updated. But it is important to record that
References
the book owes its existence to the initiative taken by the group and particularly to the enthusiasm of Sunand Prasad. Sebastian Macmillan University of Cambridge March 2003
xx
Audit Commission (2003) PFI in Schools: the quality and cost of buildings provided by early Private Finance Initiative schemes, London: Audit Commission. Construction Task Force (1998) Rethinking Construction, London: DETR. DETR (2000) Our Towns and Cities: the future – delivering an urban renaissance, London: DETR. Loe, E. (2000) The Value of Architecture: context and current thinking, London: RIBA. RIBA (2000) Architects and the Changing Construction Industry, London: RIBA. Urban Task Force (1999) Towards an Urban Renaissance, London: Thomas Telford. Worpole, K. (2000) The Value of Architecture: design, economy and the architectural imagination, London: RIBA Future Studies.
Chapter 1
111 2 3 4
Design as a value generator
5 6 7 8 9 10 1
Sebastian Macmillan
2 3 4 5 6 7 8 9 20 1
There has never been a better time to address
and
2
the issue of design quality and the value of
322
design. Both are high on the political agenda.
Design is a core problem-solving activity
4
Government has endorsed the view that that
that not only determines the quality of the
5
everyone benefits from the buildings, towns
built environment – the buildings, public
6
and cities where we live and work providing
spaces, landscape and infrastructure – but
7
efficiently constructed environments that
also delivers many of the instruments for
8
promote health, productivity, and civic pride.
the implementation of an urban
9
And it is supporting initiatives to promote
renaissance.
30
sustainable development, to improve the design
1
of the built environment, and to raise the
The Construction Task Force report (1998)
2
efficiency of the construction industry.
made a number of recommendations for
3
improving the quality and efficiency of UK
4
three initiatives largely began with the election
construction, though it had little to say about
5
of New Labour in 1997, when sustainability, the
design, indeed little to say about the product of
6
built environment and the construction industry
construction other than that it should be
7
were all the subject of political attention. The
completed on time and within budget. It was
8
Deputy Prime Minister commissioned both a
left to the Deputy Prime Minister
9
Construction Task Force led by Sir John Egan,
retrospectively to introduce design as a vital
40
and an Urban Design Task Force led by Lord
component:
1
Although there are antecedents, these
Rogers. The Urban Task Force report (1999)
2
called for a design-led urban renaissance: ‘Our
Good design is an integral and essential
3
analysis of successful urban design case
part of Rethinking Construction. It is a key
4
studies emphasises how deeply quality of urban
to many of the performance targets; it is a
5
life is affected by good design,’
key to reducing construction time and
611
1
Designing Better Buildings
defects; it is a key to sustainability and to
By effectively defining good design as
respect for the environment. In the
‘integrated design and construction’ the
broadest sense it is the key to respect for
publication neatly implied that Private Finance
people, whether they be users of a building
Initiative (PFI) schemes, where design is
or passers by . . .
integrated with construction, or often
(Rt Hon John Prescott, 1999)
subsumed by it, are as able as conventionallyprocured buildings to achieve design quality.
These sentiments about design were
PFI is typically finance-led rather than
subsequently picked up, endorsed and
design-led. In recognition of the risk that good
expanded by the government’s Better Public
design is sacrificed to financial concerns, the
Buildings Group. In the Foreword to the group’s
Treasury Task Force produced a guidance note
publication Better Public Buildings, the Prime
in which the contribution of design was
Minister commits the government to making a
ringingly endorsed:
step change in the quality of building design in the public sector (DCMS, 2000): We know that good design provides a host of benefits. The best designed schools encourage children to learn. The best designed hospitals help patients to recover their spirits and their health. Well-designed parks and town centres help to bring communities together. . . . That is why I have asked ministers and departments across government to work towards achieving a step change in the quality of building design in the public sector. . . . I am determined that good design should not be confined to high profile buildings in the big cities; all users of public services . . . should be able to benefit from better design.
At its broadest, design is the process in which intelligence and creativity are applied to a project in order to achieve an efficient and elegant solution. . . . good design is not an ‘optional extra’, rather it is inherent in the way the brief is responded to from the very beginning. Design encompasses functional efficiency, structural integrity, sustainability, lifetime costing, and flexibility as well as responsiveness to the site and to its setting. . . . Good design involves creativity, and it should lead to simplification and to savings in cost. . . . it can increase outputs and add to the quality of service. It can also give the facility a competitive advantage in attracting both customers and staff. Good design can also contribute to wider policy objectives, such as those relating to the protection of the environment. Good design . . . adds value in
However, the Foreword also makes it clear that
the following ways: functionality; reducing
it is the Egan view of ‘good design’ that is
whole-life costs; service enhancement;
being endorsed:
architectural quality and wider social and environmental benefits.
It is widely believed that good design is a
(Treasury Task Force, 2000)
costly luxury. But this is simply not true. As Sir John Egan’s report Rethinking Construction demonstrated, best practice in integrating design and construction delivers better value for money as well as better
CABE, the Movement for Innovation, and Sustainable Construction
buildings, particularly when attention is
2
paid to the full costs of a building over its
To help industry meet the Construction Task
whole lifetime.
Force objectives, the Movement for Innovation
Sebastian Macmillan
(M4I) was established in 1998. Its mission was
111
The original Rethinking Construction
‘to lead radical improvement in the construction
report made no reference to sustainability, but
2
industry in: value for money, profitability,
the government initiative on sustainable
3
reliability, and respect for people; through the
development identified construction as a sector
4
demonstration and dissemination of best
where improvement was needed. In the
5
practice and innovation’ (from the M4I web site
daughter paper Opportunities for Change:
6
www.m4i.org.uk.).
Sustainable Construction (DETR, 1998), a call
7
was made for progress in two areas that relate
8
of public buildings and champion good quality
to quality, even though the term design was
9
architecture and urban design, the Commission
not used. These are:
10
To deliver the step change in the quality
for Architecture and the Built Environment was established in September 1999, replacing the
1 appropriate quality, durable, built
2
Royal Fine Art Commission. Initially funded by
environments that are flexible and
3
the Department for Culture, Media and Sport
adaptable; . . .
4
(DCMS), it was subsequently recognised in the
•
the provision of buildings which are
5
White Paper Our Towns and Cities: the future
resource and energy efficient in their
6
(DETR, 2000) as being relevant to the
operation, and which provide pleasing and
7
responsibilities of the DETR which became its
efficient environments for living, working
8
joint sponsor (following government
and leisure.
9
•
reorganisation, the Office of the Deputy Prime Minister became its joint sponsor with DCMS). The White Paper itself largely endorsed
20 Both were endorsed in the subsequent
1
publication A Better Quality of Life: A strategy
2
the call by the Urban Task Force for good
for sustainable development for the UK (DETR,
322
design:
1999). As Bordass (2000) explains, there is an
4
urgent need to make buildings more resource
5
efficient while also contributing to human
6
satisfaction and to business performance; and
7
these ambitions need not conflict.
8
We want good planning and design in new development and renovation to be second nature for everyone, in both the public and private sectors. To achieve this we need to
9
demonstrate the benefits of good practice through real life examples and encourage people to take the importance of good design and planning more seriously. (DETR, 2000)
30
Establishing the principles of good design
1 2 3
CABE has the remit to promote good design in
4
CABE has stated that ‘Good design is
towns and cities and has begun to establish the
5
fundamental to achieving high-quality public
principles of good design. This is by no means
6
buildings’ and has identified a number of steps
the first attempt to do so. 2000 years ago, the
7
that are needed to encourage it, including:
architect Vitruvius’ Ten Books on Architecture
8
raising client commitment to achieving design
(Morgan, 1960), were respectfully addressed to
9
quality, setting project budgets based on whole-
the Emperor, and sought to influence the
40
life costs and benefits, setting benchmarks for
design of public buildings. He argued for six
1
design quality, communicating design needs,
fundamental principles to be followed – order,
2
ensuring full stakeholder involvement in the
arrangement, eurythmy, symmetry, propriety,
3
design process, and signalling the importance
and economy.
4
of design to the procurement process (CABE, 2002a).
5
In our own times, roles have been
611
reversed as Prince Charles sought to influence
3
Designing Better Buildings
The Urban Task Force (1999) offered its
architects. In his Vision of Britain (1989) he proposed ‘Ten principles we can build upon’.
own set of ‘key principles’ for urban design:
These were: sense of place, hierarchy, scale,
1 Site and setting
harmony, enclosure, materials, decoration, art,
2 Context, scale and character
signs and lights, and community. Five years
3 Public realm
later, the Royal Fine Art Commission published
4 Access and permeability
its enquiry into What Makes a Good Building?
5 Optimising land use and density
(RFAC, 1994) and identified order and unity,
6 Mixing activities
expression, integrity, plan and section, detail,
7 Mixing tenures
and integration with neighbouring buildings as
8 Building to last
the criteria for a good building. Other authors have also prescribed the attributes that buildings should demonstrate at
9 Sustainable buildings 10 Environmental responsibility.
the urban scale. Punter and Carmona (1997)
CABE’s emerging guides to good practice
review them, comparing and contrasting
(CABE and DETR, 2000; CABE and DTLR, 2001)
principles proposed by the Prince of Wales with
begin to identify and prescribe the principles of
similar lists from authors like Kevin Lynch, Jane
good design at both the individual building and
Jacobs, Francis Tibbalds, the Urban Design
urban levels (Table 1.1).
Group, and others. Parfect and Power (1997) cover some of the same ground.
Many of the Urban Task Force prescriptions were based on advocacy rather
Table 1.1 Principles of good design as identified by CABE CABE (2002b)
CABE (2002c)
CABE (2002d)
CABE (2002d)
What makes a good
Principles of good
What is a well-designed
What is a well-designed
project?
design
building?
place?
• order
• functionality in use
• appearance
• character
• clarity of organisation
• build quality
• context
• continuity and
• expression and
• efficiency and
• buildability
representation • appropriateness of architectural ambition • integrity and honesty • architectural language • conformity and contrast • orientation • detailing and materials • structure, environmental services and energy use • flexibility and adaptability • sustainability • beauty
4
sustainability • designing in context • aesthetic quality
enclosure
• maintenance
• quality of the public realm
• operation
• ease of movement legibility • adaptability • diversity
Sebastian Macmillan
than evidence (Cooper, 2000) and similar
standard of urban design when assessed by
111
criticisms may be levied at CABE; that the
this process. Rowley concludes:
2 3
evidence base on which these prescriptions are being made is, as yet, slight. Nevertheless,
While it is easy to cost a development, it is
4
there is a growing body of research about the
much more difficult to place a value on
5
value of design at the urban scale, and also at
what are often intangible qualities, all the
6
the individual building level.
more so if a particular solution is innovative.
7
So developers are frequently driven back
8
onto a ‘gut feeling’ although a few claim to
9
be able to measure the returns on
10
investment in design quality. For this
1
reason, persuasive architects and
2
In 1995, the Department of Environment
masterplanners can have a significant
3
launched its Quality in Town and Country
influence on property developers, helping to
4
initiative (DoE, 1995). Research was
convince them of the added value better
5
commissioned into the quality of urban design,
design may realize even if this involves an
6
as reported by Rowley (1998). This examined
increased cost initially.
7
The evidence base for valuing design in the public realm
8
the role and importance of urban design considerations, the benefits of giving explicit
In 1999 the RIBA Future Studies group
9
attention to urban design considerations, the
commissioned Worpole and Loe to report on
20
factors which constrain the promotion of good
the value of architecture. Worpole’s review
1
urban design, and the incentives and other
(2000) put forward four principal arguments
2
measures that might encourage increased
about the contribution that architecture and
322
attention and contribution to urban design
design can make at the urban level (Table 1.2)
4 5
Loe (2000) was more concerned with
quality. Noting the difficulty of defining and discussing urban design quality, the researchers
the economic value and impact of individual
6
set out a list of fifty urban design
buildings. His wide-ranging review covers
7
considerations, grouped into four bundles:
building rating methods and building industry
8
award schemes, He cites four types of
9
•
Functional and social use considerations
buildings that respond to differing requirements
30
•
Natural environment and sustainability
identified in the 1991/92 study by DEGW and
1
considerations
Technibank on Intelligent Buildings in Europe:
2
•
Visual considerations
•
The urban experience.
3 •
Each of five developments was rated against all
Use value building – custom-designed for
4
the owner-occupier, maximises the use
5
value for the end user organisation.
6
Exchange value building – developed
7
of multicriteria analysis. The researchers admit
speculatively, and designed to maximise
8
a number of methodological limitations to the
the building exchange value as a
9
study (ranging from ambiguity, overlap and
commodity to be traded.
40
Image value building – designed to
1
to lack of input from local people, lack of
maximise the image value of the building,
2
quantitative assessment where considerations
often at the expense of efficiency or other
3
qualities.
4
Business value building – use, exchange
5
and image are synthesised into a building
611
fifty criteria on a scale of 0 to 4, using a form
contradictions between the fifty considerations,
•
•
might allow, and so on) but nevertheless are able to claim that of the five case studies, Brindleyplace came closest to achieving a high
•
5
Designing Better Buildings
Table 1.2 The contribution of architecture Impact
Example
The wider economic impact of attractive
Flagship architectural projects that have clear
buildings and settings
economic impact on the towns and cities in which they are located.
Achieving greater value for money through
How the skills and expertise of the architect
technical and intellectual expertise
can provide cost-effective solutions to complex problems, not only saving money but providing extra benefits in terms of increased space, easier access, more efficient living and working conditions.
Enhanced individual and social well-being, and
The ability of buildings and places to provide
therefore quality of life
heat and coolness, light and shade, companionship and sanctuary, excitement and rest . . . safety and security, greater legibility and assurance, and a greater sense of locality, identity, civic pride and belonging . . . architecture can be a vital part of a wider notion of quality of life.
Greater adaptability, energy efficiency and
Greater regard for the orientation of the site,
environmental sustainability
local topographical and environmental factors . . . and designing and fine-tuning buildings that take advantage of these factors to minimise energy use – and therefore revenue costs – and provide comfortable and pleasant environments in which to work. After Worpole (2000)
where technology is fully exploited to maximise the range of options for the end
Evidence on individual sectors and buildings
user. CABE has also begun to identify and publish In 2001, CABE followed up the research
studies into how buildings and spaces create
reported by Rowley by supporting and
economic and social value (CABE, 2002e)
publishing The Value of Urban Design (CABE,
Collectively, these begin to provide evidence
2001). In the introduction, Sir Stuart Lipton
of the value of design in various sectors
describes it as ‘an excellent starting point from
including healthcare, education, housing, and
which to build up the evidential core of our
business. A more comprehensive literature
work’. It includes a review of the literature on
survey is available on the CABE web site
the value of urban design, drawing attention to
(www.cabe.org.uk). Separate publications cover
the range of stakeholders who benefit from
key sectors – healthcare (Building Futures,
higher design standards. Many of its key
2002), education (CABE, 2002c), and housing
findings are reported in Chapter 11.
(CABE, 2002f). CABE argues that
6
Sebastian Macmillan
Good design is not just about the aesthetic
111
Indicators of design quality
2
improvement of our environment, it is as much about improved quality of life,
Buildings have diverse impacts – ranging from
3
equality of opportunity and economic
civic pride to occupant comfort. These are all
4
growth. . . . Good design does not cost
design issues, but only rarely are they
5
more when measured across the lifetime of
discussed at one and the same time. We seem
6
the building or place; good design follows
to decompose the built environment by
7
from the employment of skilled and
discipline. More than thirty years ago, Hillier,
8
multidisciplinary teams; the starting point of
Musgrove and O’Sullivan criticised this trend
good design is client commitment.
and proposed a four-function model for
(CABE, 2002e)
9 10 1
buildings which attempted to capture and
2
classify all their effects (Table 1.3). It is a
3
CABE’s growing evidence base excludes
reminder of the breadth of the impact of
building science research, although there is
buildings individually and in combination – not
growing evidence about how the occupants of
only on the health, welfare and behaviour of
buildings interact and control their environment.
occupants, but on the use of natural resources,
The most prominent research of this type is
on microclimate, on land values, on transport
provided by the Probe (post-occupancy review
needs, and on people and society.
4 5 7 8
of buildings and their engineering) studies.
The much more recently devised Design
These were concerned not with the public
Quality Indicator (DQI) tool attempts something
realm but with meeting clients’ needs, with
equally broad. The tool asks assessors to
occupants’ self-assessments of their own
evaluate the performance of a building against a
productivity, and with energy efficiency. An
wide spectrum of attributes collected under
overview is provided in Chapter 3, while
three main headings of functionality, build
Chapter 13 also draws on some of the lessons
quality and impact. The DQI system is reported
from Probe. Probe identified some persistent
fully in Chapters 15, 16 and 17.
problems and inefficiencies in new buildings
6
9 20 1 2
322 4 5 6 7
Of course, there are major questions
8
including high levels of air infiltration,
about the indicators and their use in practice.
inadequate management of energy, and over-
These questions relate to two broad areas –
30
complicated controls – all leading to
first, whether the system has been devised in
1
unnecessarily high energy consumption and
accordance with accepted practice for
2
reduced comfort for occupants.
multicriteria analysis (which is the basis of the
3
hierarchical decomposition and weighting
4
demonstrate is that the most successful
system employed by the tool) and second
5
buildings from the perspective of occupant
about the information that is needed by, and is
6
comfort are those that offer adaptive
available to, the assessors when making their
7
opportunities (Baker, 1996) – openable
value judgements. Multicriteria analysis is a well
8
windows, adjustable blinds, locally controlled
established technique with a substantial
9
mechanical services, task lighting and flexibility
literature about procedural issues such as the
40
in furniture layout and seating positions.
need for independence of criteria from one
1
Shallow buildings that allow natural ventilation,
another, and the bias that follows if they are
2
views to the outside and good daylight levels
instead interdependent. As for the information
3
inside are typically preferred to deep plan
needed, in order to evaluate proposals
4
alternatives.
adequately at the design stage with respect to
5
attributes like lighting quality and energy use,
611
What Probe and similar studies
9
7
Designing Better Buildings
Table 1.3 The four-function model Function
Effect
Climate modifier
A complex environment filter between inside and outside, it has a displacement effect on external climate and ecology, and it modifies by increasing, decreasing and specifying the sensory inputs into the human organism
Behaviour modifier
It both inhibits and facilitates activities, on occasion prompting or determining them. It locates behaviour and modifies the total behaviour of society
Cultural modifier
A symbolic and cultural object, not simply in terms of the intentions of the designer, but also in terms of the cognitive sets of those who encounter it
Resource modifier
A building is an addition of value to raw materials and a capital investment, a maximisation of scarce resources of material and manpower, and a use of resources over time. After Hillier, Musgrove and O’Sullivan (1972)
these are fairly complex judgements requiring
for this constructive use about design priorities,
not only some expertise but also
rather than as a mere point-scoring tool.
representations or models (together with proposals for building services controls and their operation and management) that allow judgements to be informed and reliable. How
Good design as part of the construction industry vision
quickly reliable assessments can be made in practice remains to be seen. Despite shortcomings the DQI system is
In 2001 the Strategic Forum was established, with Sir John Egan as its chairman, to bring
being piloted by sixty trail-blazing organisations.
together a number of rethinking construction
While the originators of the DQIs wish to
initiatives. Although design had been
disassociate themselves from producing mere
conspicuous by its absence in the original
checklists, one of the strengths of the DQI is to
Construction Task Force report, it reappeared in
act as prompts about the impacts of buildings –
the report of the Forum’s first year’s work,
for the design team during the design process,
Accelerating Change (2002). The Forum’s vision
but also for clients. If the DQI tool helps to
for the industry now refers to the economic
stimulate constructive discussion and debate
and social value of good design:
within design teams and between them and their clients – about issues like inspiration and
Our vision is for the UK construction
delight and how these are to be balanced
industry to realise maximum value for all
against functionality and performance – it will
clients, end users and stakeholders and
prove a valuable adjunct to the techniques that
exceed their expectations through the
support design, almost regardless of any
consistent delivery of world class products
theoretical weakness. It is to be hoped that, if
and services. In order to achieve this the
the DQI system becomes widespread, it will be
UK construction industry must:
8
Sebastian Macmillan
• •
add value for its customers, whether
reducing the 0.1. So-called value management is
111
occasional or experienced, large or small;
often treated as a means to reduce costs rather
2
exploit the economic and social value of
than, as the term implies, add value. Often this
3
good design to improve both the
becomes a process of identifying the least
4
functionality and enjoyment for its end
capital cost option for each building element. At
5
users of the environments it creates (for
worst, this militates against buildings where, for
6
example, hospitals where patients recover
example, the fabric is designed to be selective
7
more quickly, schools and work places
in how it deals with climate – using natural
8
which are more productive and more
means as far as possible for ventilation,
9
enjoyable to work in, and housing which
daylighting and heating – so as to minimise the
10
raises the spirits and enhances the sense
need for mechanical services and applied
1
of self-worth).
energy. It is important to seek best value for
2
money overall (EEBPp, 2000).
3
This enlarged ambition and inclusive vision
4
But there are further arguments
seem more likely than before to awaken the
designers need to make about their
5
interest of design practitioners, who had
contribution. These relate to the economic and
6
demonstrated a lack of engagement in
social value of design. Designers need to argue
7
rethinking construction. It introduces into the
the case for buildings to be seen as means
8
initiative an interest in buildings as social assets
rather than as ends, and for greater investment
9
rather than products to be delivered at a point
in design so as to impact on the 5 and the 200.
20
in time, and in value in use as well as capital cost.
Design as a means to add social, economic and environmental value Chapter 5 cites what has become a much
1
One approach for assessing business benefits is the organisational performance
2
matrix, described by Spencer and Winch (2002).
322
This is derived from work by DEGW into how
4
building performance contributes to
5
organisational success, and by Heerwagen who
6
used a balanced scorecard approach to evaluate
7
building facilities (Figure 1.1).
8 9
What is also needed is to feed forward
quoted ratio – 1:5:200 – for the relationship
the results of these kinds of measurement
30
between the capital cost of a building, the
exercises into valuation procedures. Current
1
running costs and the staff costs of building
valuation systems focus on replacement cost
2
occupants. Within the total capital cost, fees
and market value but, in consequence, often
3
represent around 10 per cent, so the ratio could
undervalue substantially the contribution of the
4
be rewritten in broad terms:
asset to the organisation. Replacement cost
5
and market value fail to account for the impact
6
•
Design
0.1
of buildings on corporate identity, on the health,
7
•
Construction
1
well-being and productivity of staff, on staff
8
•
Running costs
5
retention and recruitment potential. Collectively
9
•
Occupancy costs
200
these intangibles represent a variety of benefits
40
to clients and other stakeholders which a
1
Viewed in this way, it can be seen there is a
building raises in terms of its design value.
2
ratio of some 2000:1 between occupant costs
They are not taken into account by current
3
and design costs. Often, much of the effort
valuation methods. Crucial investment in
4
during the design and construction phases of a
improving the quality of the built environment is
5
building is directed towards reducing the 1 and
held back through lack of knowledge of how to
611
9
Designing Better Buildings
Financial benefits • running and maintenance costs • market value • whole-life value
Internal business process benefits • flexibility and adaptability • functional efficiency • process innovation • organisational structure
Organisational performance
Stakeholder benefits • public image • external relations • organisational expression • brand identity • recognition
Human resource benefits • psychological and physiological well-being • cultural expression • quality of work life • productivity
value these intangibles. This argument is
•
For the industry itself to adopt and to promote to clients and to society a ‘whole-
explored further in Chapter 6. However, measuring and valuing
life value’ approach to the built environment
economic costs and benefits are only a part of
that takes into account not just costs in use
a wider and longer-term issue of how to credit
but also less tangible benefits
in some robust and measurable way the social
•
For the development of valuation methods
and environmental advantages that arise from
that reflect the full range of values in the
good design. CABE’s collation of evidence,
built environment – including those of
sector by sector, needs to be the start of an
owners, users, developers, neighbours, and
industry-supported knowledge base of research
the general public – and relate to social,
results demonstrating – defensibly and without
cultural, aesthetic, functional, environmental
special pleading – the full spectrum of benefits
and economic criteria.
to all stakeholders arising from good design. To improve design practices and procedures and
These actions will reinforce the emerging view
raise the profile and reputation of design within
that design should not be viewed as a cost, nor
the built environment, there are at least four
as costly. It is a vital activity that uses vision
urgent needs:
imagination to devise possible worlds that do not yet exist. Design exploits the skills of
•
•
10
For continuing efforts by the research
inventiveness and innovation not only to meet
community to expand our knowledge of
needs, to exceed the expectations of both
the added value of design
clients and the public. Design provides
For designers to embrace the emerging
ingenuity to solve problems in effective,
findings about how people use, react to,
efficient and previously unforeseen ways.
and value buildings, and to champion
Through design, alternative possibilities are
the ability of design to deliver
devised that satisfy requirements to greater or
environments within which people can
lesser degrees and so clarify and illuminate the
pursue inspiring, meaningful, productive
relationships between needs and wants, and
and happy lives
make it possible to identify priorities among
1.1 Organisational performance matrix (after Spencer and Winch, 2002)
Sebastian Macmillan
competing options. Design judgment determines the optimum balance between a wide range of attributes concerned with performance, functionality, appearance, longevity, robustness and ergonomics. Design is a generator of value and the key to ensuring the built environment provides wide-ranging benefits in which the whole of society shares.
References Baker, N. (1996) ‘The irritable occupant: recent developments in thermal comfort theory’, Architectural Research Quarterly, vol. 2, no. 2, pp. 84–90. Bordass, B. (2000) ‘Cost and value: fact and fiction’, Building Research and Information, vol. 28, no. 5/6, pp. 338–52. Building Futures (2002) 2020 Vision: our future healthcare environments, London: CABE. CABE and DETR (2000) By Design – urban design in the planning system: towards better practice, London: Thomas Telford. CABE and DTLR (2001) By Design – better places to live, London: Thomas Telford. CABE (2001) The Value of Urban Design, London: Thomas Telford. CABE (2002a) Improving Standards of Design in the Procurement of Public Buildings, London: CABE. CABE (2002b) Design Review: guidance on how CABE evaluates quality in architecture and urban design, London: CABE. CABE (2002c) Client Guide: achieving well designed schools through PFI, London: CABE. CABE (2002d) Better Civic Buildings and Spaces, London: CABE. CABE (2002e) The Value of Good Design: how buildings and spaces create economic and social value, London: CABE. CABE (2002f) The Value of Housing Design and Layout, London: Thomas Telford. Construction Task Force (1998) Rethinking Construction: the report of the Construction Task Force, London: DETR. Cooper, I (2000) ‘Inadequate grounds for a “design-led” approach to urban renaissance?’ Building Research and Information, vol. 28, no. 3, pp. 212–19.
DCMS (2000) Better Public Buildings: a proud legacy for the future, London: Department of Culture, Media and Sport. DETR (1998) Sustainable Development: opportunities for change – sustainable construction, London: DETR. DETR (1999) A Better Quality of Life: a strategy for sustainable development for the UK, London: HMSO. DETR (2000) Our Towns and Cities: the future – delivering an urban renaissance, London: HMSO. DoE (1995) Quality in Town and Country – urban design campaign, London: Department of Environment. EEBPp (2000) The Design Team’s Guide to Environmentally Smart Buildings, Good Practice Guide 287, Energy Efficiency Best Practice programme, Watford: BRECSU. Hillier, B., Musgrove, J. and O’Sullivan, P. (1972) ‘Knowledge and design’, reprinted in N. Cross, (ed.) Developments in Design Methodology, Chichester: Wiley, 1984. Loe, E. (2000) The Value of Architecture – context and current thinking, London: RIBA Future Studies. Morgan, M. (trans.) (1960) Vitruvius – The Ten Books on Architecture, New York: Dover Publications. Parfect, M. and Power, G. (1997) Planning for Urban Quality: urban design in towns and cities, London: Routledge Prince of Wales (1989) A Vision of Britain, London: Doubleday. Punter, J. and Carmona, M. (1997) The Design Dimension of Planning: theory, content and best practice for design policies, London: E and FN Spon. RFAC (1994) What Makes a Good Building? London: Royal Fine Art Commission. Rowley, A. (1998) ‘Private property decision makers and the quality of urban design’, Journal of Urban Design, vol. 3, no. 2, pp. 151–73. Rt Hon John Prescott (1999) DETR Press release, 19 July 1999. Spencer, N. and Winch, G. (2002) How Buildings Add Value for Clients, London: Construction Industry Council, Thomas Telford. Strategic Forum for Construction (2002) Accelerating Change, London: Strategic Forum. Treasury Task Force (2000) How to Achieve Design Quality in PFI Projects, Technical Note 7, London: HM Treasury. Urban Task Force (1999) Towards an Urban Renaissance, London: E and FN Spon. Worpole, K. (2000) The Value of Architecture: design economy and the architectural imagination, London: RIBA Future Studies.
111 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
11
111
Part 1
2 3 4 5 6 7
The perspective of clients
8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
Without clients, the construction industry
procurement, as well as their aspirations for the
322
cannot build. What do clients want from their
future and a programme of steadily more
4
buildings, and what steps can they take to
demanding targets to drive up standards. The
5
ensure they receive it? This first section of the
Charter was launched in December of that year,
6
book discusses design quality as seen by
and Tony Pollington’s chapter sets out its main
7
clients. The opening chapter in this section is
features. The Charter commits clients, who
8
by Tony Pollington who assisted with
agree to be bound to it, to adopt a number of
9
establishing the Construction Clients Forum
good practices, such as providing leadership,
30
(CCF) – an umbrella body for a number of client
treating the supply team fairly, promoting trust,
1
organisations, and which later became the
identifying and managing risk, minimising
2
Confederation of Construction Clients (CCC).
waste, and respecting the health, safety and
3
His chapter addresses the subject of clients
welfare of all those involved in the construction
4
and construction. His key point is that clients
activity. The Charter expects clients to define
5
require buildings to support their own business
measurable targets, many of which are design-
6
processes – not as ends in themselves, but as
related, and is widely recognised as a
7
means to an end. Designers therefore need to
compendium of good client procurement
8
work with clients to understand the nature of
practices, or good clientship. Together with
9
those processes. His chapter also emphasises
other benchmarking initiatives – of the
40
that feedback about the results is necessary to
construction process through the M4I Key
1
ensure the industry learns from experience.
Performance Indicators, and of designs through
2
In July 2000 the Deputy Prime Minister
Design Quality Indicators, the Clients’ Charter
3
challenged the client community to draw up a
emphasises the responsibilities as well as the
4
charter that would set out the minimum
rights of clients, and provides a way to
5
standards they expected in construction
benchmark them.
611
13
Designing Better Buildings
Once clients have decided to build, they
physical monitoring, testing and analysis of
need to understand the options open to them
performance facts and figures. Each has its
and the associated costs and benefits. To do
own strengths, but it is in combination that
this, they need knowledge of the effectiveness
they are at their most powerful, combining both
of their present facilities, and how their
hard and soft issues, and qualitative and
buildings help or hinder their business
quantitative evidence. The chapter ends with a
performance. The CCC initiated research to help
call for closer links between the supply side
clients and the industry review the performance
and users and managers, particularly during the
of their buildings. The intentions behind this are
first year after handover of a building. While
to make the business case for undertaking
right first time is a commendable ambition,
feedback, to define what sort of feedback
many buildings can benefit from a period of sea
should be sought (for example, on the
trials and fine tuning. These can help the client
processes of procurement and delivery, and on
to understand better how the building operates
the performance of the product) and to give
and responds to controls, and the design team
practical advice to organisations on how to get
to learn from feedback and improve delivery on
started.
subsequent projects.
The Confederation of Construction
Chapter 4 is by Dickon Robinson of the
Clients recognised the importance of learning
Peabody Trust and discusses the client’s
from buildings both to improve their operation
perspective on the value of good design. The
and to feed forward to new projects. In Chapter
Peabody Trust is, of course, no ordinary client –
3, Learning more from what we build, Bill
this is the perspective of what is sometimes
Bordass presents a brief history of past
thought of as ‘the enlightened client’ – and
research into building performance evaluation,
Robinson champions innovation, design, long-
summarises the benefits of such evaluations,
term vision, people-based solutions, and
and identifies different levels of approach. For
partnering arrangements. He describes how the
organisations, the benefits of evaluating their
Trust has begun to explore mixed-use housing
facilities include: demonstrating their interest in
and to use leading edge architects, and has
occupants’ welfare; helping managers to
even promoted an architectural competition.
understand the potential of their facilities and
Peabody has diversified into key worker
how to fine-tune and operate buildings better;
housing and low cost home ownership, and has
and improved space planning and asset
embraced innovative funding arrangements,
management. In the longer-term, improved
procurement routes and construction
feedback has the potential to raise standards
techniques. At the same time, their ambition is
and provide design guidance, enhance
also towards long-term fitness for purpose, and
performance over the whole-life cycle, and
to construct buildings that contribute to urban
contribute to better designed and managed
regeneration. The author shares with Lord
buildings. Yet where major evaluations have
Rogers a view that urban design can be
been undertaken these have most often been
achieved through design-led construction
in response to some business driver, for
projects – bespoke solutions with an ambitious
example buildings having a negative impact on
vision. While commending the Egan report for
an organisation’s customers; reactive rather
its emphasis on innovation and involving
than proactive.
people, he expresses concern that there is too
Four levels of evaluation are set out:
much stress on building faster and more
systematic walk-through observations;
cheaply – on the product rather than on the
facilitated discussions in post-project review
process. He notes that, at worst, architects and
workshops; questionnaires and interviews; and
engineers are losing influence under the new
14
The perspective of clients
arrangements, and he questions whether the
of the people working in it. They use this ratio
111
Egan agenda can deliver the Rogers’ design-led
to emphasise the importance of considering
2
vision.
medium- and long-term issues in the design of
3
buildings, and using a whole-life cost approach
4
to the importance of long-term working
and life cycle analysis, rather than a short-term
5
partnerships, where continuity of personnel
approach. The authors go on to review some of
6
creates mutual confidence and trust. That this
the evidence about the health and productivity
7
is a gradual process should not be overlooked,
of building occupants, particularly in relation to
8
it needs a period of joint working. He is also
the issue of indoor air quality, and suggest that
9
realistic about risk-sharing and accepts that at
substantial productivity gains are possible
10
the end of the day it is the client who
through good design.
1
Dickon Robinson then turns his attention
shoulders the risk – although he believes that
The authors also address the design and
2
increasingly all the parties will come to share in
construction process and suggest ways of
3
the risk, and that the allocation of rewards may
reducing building costs. They recommend a
4
also change. The right of designers to exert the
‘loose fit’ approach between building fabric and
5
dominant influence over the form and
building services for ease of installation, speed
6
aesthetics of the building may have to be
of construction, simplified maintenance and
7
earned, and a share of the risk accepted. He
greater flexibility for future adaptations. They
8
concludes that design is about creating value,
commend modularisation and standardisation,
9
and high value leads to a lasting legacy – at its
the early involvement of constructors, suppliers
20
best the design process extracts the full
and installers, and computer-based modelling to
1
potential of the site and adds both real and
help evaluate alternative options and reduce
2
intangible values. The way forward for
uncertainty about building performance. They
322
affordable housing and the creation of attractive
recommend greater use of information and
4
neighbourhoods, he argues, is by a bespoke
communication technologies for rapid data
5
development-led approach, that exploits factory-
sharing and improved coordination.
6
based standardised construction technologies to achieve high quality.
The authors go on to discuss the
7
operational phase of the building. They note the
8
need for departmental adjacencies and
9
owning and using buildings, was originally
functional space planning, for minimising energy
30
published by the Royal Academy of Engineering
consumption and environmental impact and for
1
and is reproduced with their permission. Its
providing integrated IT systems. They
2
authors are Raymond Evans, Richard Haryott,
recommend the involvement of the facilities
3
Norman Haste and Alan Jones. The authors
manager in regular assessments of productivity,
4
reinforce the views expressed in Chapter 2 that
and propose reviews of the productivity
5
clients primarily want buildings to support their
benefits accruing from improved conditions –
6
own business process, whether these are
both complex tasks, as they freely admit.
7
concerned with generating wealth or providing
Nevertheless, the authors’ wide-ranging
8
a service. To do so effectively, facilities must
prescriptions for improving the design,
9
create an environment where people feel
construction and operation phases of buildings
40
motivated to give their best; and well-designed
serve to emphasise the substantial potential
1
and well-managed buildings can lead to
there is for better design processes, more
2
significant productivity gains. The authors
efficient approaches to construction, and
3
provide a now much-quoted ratio – 1:5:200 –
improved facilities management. Perhaps most
4
between the capital cost of a building, the cost
valuable of all is their demonstration that all
5
of operating and owning it, and the overall cost
three phases are inextricably linked.
611
Chapter 5, The long-term costs of
15
Chapter 2
Clients and quality Tony Pollington
Today there is a much wider recognition that
Few clients require buildings and/or
the construction industry’s objective must be to
constructions for their own sake. There are
provide the client with the best possible
some examples of national memorials or
solution for the clients’ own business. This
decorative structures, but these are a small
seems a truism now, but it is only recently
minority of projects. In the main, clients require
that the industry has truly accepted that its
buildings or constructions as an aid to
whole raison d’être is to provide a service to
successfully operating their own businesses,
clients. Much has happened since 1994 but it
whether these are commercial operations or
was Sir Michael Latham (1994) who, as a
private assets. It is crucial, therefore, that
result of a structured examination of the
clients know why they want a construction and
industry’s approach to providing a service, first
what they want it to do to support the client’s
articulated that it would only change radically
own operations. Unfortunately, not all clients
if the customers who pay the bills demand it.
recognise that they need expertise to identify
He spoke as a knowledgeable and experienced
these objectives successfully. It is not always
policy-maker in the industry, and his
the case that a construction solution is
conclusions were both endorsed and given
necessarily the optimum from a business point
added impetus by Sir John Egan’s Rethinking
of view; perhaps the business objective might
Construction Task Force (Construction Task
be better achieved by re-engineering the
Force, 1998). This identified the action
business, or by other management
programme necessary to achieve the
improvements. This is, after all, the stuff of
improvements in the industry’s performance
everyday investment appraisal.
defined by his experience as a major
Where, however, a need for construction
construction client, with continuing
is properly established, it is essential that
programmes of specialised works.
clients are aware of the options that are
16
Tony Pollington
available to them and the costs and benefits
increased productivity in offices arising from a
111
associated with them. It is here that the
good quality internal working environment – but
2
development of appropriate systems of
also less tangible and less easily measured
3
measurement is vital. Traditionally, perhaps,
external benefits reflecting the social impacts of
4
there has been some suspicion about the
the clients’ construction project.
5 6
credibility of systems purporting to measure, for
7
example, quality of design, or the costs in use of operating a construction. Clients in the main
Feedback research
8 9
do not subscribe to this view. They expect to measure the effectiveness of their own
The Confederation of Construction Clients
10
operating processes, and express these in
(CCC), with support from the Construction
1
quantified terms, and they expect to be able to
Industry Council, initiated a major research
2
do this in relation to one of their most valuable
project, building upon and complementing
3
assets – the facilities that they use. This is
existing and ongoing work, which was aimed at
4
nothing new. Many years ago, at a time when
developing, testing and delivering a system of
5
the UK motorway programme was at its height,
robust practical feedback techniques for use by
6
the Roads Divisions of the Ministry of Transport
a wide range of clients, and not just the large
7
devised and used an assessment system which
repeat clients. Chapter 3 presents an overview
8
sought to give quantified monetary values to
of the research and a summary of its interim
9
design options for road schemes, including not
findings.
20
only relative savings in costs of accidents and
1
Fortunately, despite the demise of the
reduced travel times, but more intangible
CCC in 2002, the research is to continue
2
benefits relating to preservation of landscape,
through to completion. Its aim is to record and
322
settlements and heritage.
interpret feedback information about the
4
effectiveness of facilities in use. Those who
5
product supplied to them by the industry,
stand to benefit most from such work are
6
including the suppliers of specialised services
clients – because they will appreciate how
7
such as design, is certainty about what it costs
feedback can improve their knowledge of how
8
them to own an asset. This means that they
their facilities help or hinder their business
9
need to know the full costs they will have to
performance. In turn this will lead to continuous
30
assume over the required life of the project.
improvement in their continuing building and
1
Unfortunately, the basis for knowledge of these
construction programmes, and will help to direct
2
whole-life costs is at present rudimentary in the
how this improvement can be implemented,
3
extreme. Some attempts have been made, for
with the involvement of their suppliers.
4
What clients want in relation to the
example by BRE, to collect data relating to the
5
The supply side will benefit because
performance over time of materials and
they will be able to improve their goods and
6
components. But this is only partial, and needs
services to meet better-defined client needs
7
to be recorded on a continuing basis.
more effectively, and to supply information in
8
ways which help clients and end users to carry
9
also provided by manufacturers, but this is not
out post-project evaluations more rapidly and
40
always regarded, for obvious reasons, as truly
consistently. The environment should also
1
objective. Clients acknowledge that they
benefit, because the basic concepts of
2
themselves need to develop expertise and
sustainability, environmental enhancement and
3
methodologies for identifying and recording
pollution reduction will be better understood,
4
costs in use. These costs and benefits are not
implemented and reviewed. Finally, the national
5
only the identified tangible ones – such as
economy will benefit, because continuous
611
Some technical information is of course
17
Designing Better Buildings
improvement will give better value for money,
delivering for clients self-improvement in
reduce costs in use and increase the
performance, higher productivity and profits for
usefulness of facilities and the productivity of
their businesses, recognition of their
their occupants. Feedback will enhance the
commitment to improved performance, and a
cumulative experience of clients, and in turn
better environment in which construction can
this experience can be evaluated and
take place. It is important to identify the key cultural
interpreted by the design and construction professional for the benefit of other users. Client involvement will ensure that the benefits feed into the briefing and procurement
criteria which those clients seeking Charter status will be expected to adopt. There are four major generic areas of client emphasis:
system much faster than if feedback were undertaken solely by the supply side of the
1
Leadership and focus on the client
industry, or by intermediaries. Organisations will
2
Product team integration
find the modest costs of beginning to
3
Quality
implement feedback are soon repaid in added
4
People.
value and cost savings as better information becomes available, and is more easily acted upon. Once feedback becomes a habit, it will help turn construction into a learning process for everybody involved, rather than a succession of one-off achievements from which everyone escapes with a sigh of relief, often to make similar mistakes again.
The Clients’ Charter
Within these generic areas, clients are expected to identify programmes of improvement in their own processes which will achieve a culture aimed at working together towards high quality solutions. The cultural criteria which registered Charter clients have to adopt are: Leadership and focus on the client: •
Providing client leadership, both for improvement in procurement processes and for the supply side to develop and
How confident can we be, however, that the clients are truly committed to advancing this
innovate to meet clients’ needs; •
measurement-based approach? The
where possible, quantified objectives,
Construction Clients’ Charter, launched by the
scope and brief and realistic targets for
Secretary of State for the Environment and the Construction Minister in December 2000 (CCC,
achieving these; •
2000), expects real commitment from those
Fostering trust throughout the supply chain by treating suppliers fairly and ensuring a
clients seeking Charter registration. They commit to benchmarking their own
Providing and setting clearly defined and,
fair payment regime; •
Adopting a partnering approach wherever
improvement in their procurement processes,
•
Identifying risk and how best to manage it;
using an approach equivalent to those used to
•
Collecting and interpreting data on the
performance in implementing programmes of
possible;
benchmark design achievement.
performance in use of their construction
What is the Charter, and what relevance
solutions, for purposes of feedback.
does it have? It is a commitment to action by clients – to adopt a culture of continuous
Product team integration:
improvement and to measure progress towards achieving this in relation to quantified performance indicators. It has the aim of
18
•
Working in partnership with long-term relationships for all key suppliers;
Tony Pollington
• •
•
•
Involving all parties in the supply chain in
aspects of the design including functionality,
111
the design process as far as possible;
whole-life costs and sustainability. Besides
2
Promoting sustainability, use of renewable
being encouraged to apply performance
3
resources and the minimisation of waste in
specifications wherever possible, clients are
4
the construction process;
asked to set these, particularly for energy
5
Collecting and interpreting data on the
and materials use, in order to minimise
6
performance of all the participants in the
waste. Altogether there are some ninety
7
project;
aspects of the clients’ management of their
8
Maximising benefits from standardisation
construction interests which require clients
9
and off-site fabrication.
to define measured targets over a period of
10
time, and design considerations feature in
1
most of them.
2
Quality:
3 •
4
Aiming for quality-based solutions that yield maximum functionality for optimum whole-
Initial responses to the Charter
5 6
life cost, whilst preserving respect for the •
surroundings and the community;
How has the Charter been received? Evidence
7
Promoting process and product
to date is that it is now widely recognised as a
8
improvements to minimise defects over the
compendium of good client practice,
9
whole-life of the construction solution.
possession of which assures the supply side
20
that they are dealing with serious-minded
1
clients genuinely committed to achieving quality
2
solutions for their construction requirements, in
322
Adopting a policy of respect for all people
full partnership with all elements of the supply
4
involved in construction activity (health,
chain.
5
People: •
safety, welfare, site conditions, diversity,
Clients are of course sensitive to cynical
6
training and certification);
reactions, that all this is merely aspiration, and
7
Training their own staff.
that when the chips are down the
8
determinative approach will be lowest cost, and
9
The measurement systems to be adopted
acceptance of risk by the supplier only. Without
30
reflect both the nationally adopted Key
appearing complacent, however, we believe
1
Performance Indicators (KPIs) promulgated by
that the Charter’s operating framework will
2
the Movement for Innovation (M4I), and the
provide a method of assessing the reality of
3
aspirations set out by the Commission for
clients’ commitment and will satisfy both
4
Architecture and the Built Environment (CABE).
suppliers and end-users. The aim is for Charter
5
Throughout the process, the importance
clients to be publicly recognised as adopters of
6
to the client of recognising and incorporating
good procurement practices, to establish
7
the principles of good design is emphasised.
genuine trust with their suppliers. Crucial to this
8
For example, clients are asked to consider
is the commitment by clients to measuring their
9
objectives that cannot readily be quantified,
own progress in relation to a defined
40
but which are intrinsic to creating corporate
programme. We believe that the acceptance of
1
value from the project, such as design
the need to measure performance, including
2
aspirations. They are asked to adopt a policy
performance related to the effectiveness of
3
of involving the designer within the integrated
design, is becoming widespread throughout the
4
project team throughout the project, and to
industry. Clients hope that as professionals
5
involve suppliers in providing advice on
begin to identify and apply methods of
611
•
19
Designing Better Buildings
measurement in relation, for example, to the
References
effectiveness of design, these will be developed in collaboration with clients, so that both professionals and their clients are committed from the earliest stage, both to the concepts and to their implementation.
20
CCC (2000) Construction Clients’ Charter, Abingdon: Achilles Information Ltd. Construction Task Force (1998) Rethinking Construction, London: DETR. Latham, M. (1994) Constructing the Team, London: HMSO.
Chapter 3
111 2 3 4
Learning more from what we build
5 6 7 8 9 10 1
Bill Bordass
2 3 4 5 6 7 8 9 20 1 2
This chapter is based on an initial review
core business, to outsource facilities expertise,
322
undertaken in preparation for a project to
and then to discover that facilities were
4
improve feedback by construction clients and
more important to the business mission than
5
the industry in the UK. The review included a
they had thought. Organisations are now
6
literature survey, a client questionnaire, and a
seeking to replace their lost expertise through
7
series of workshops. The main output from
post-project evaluation and making the supply
8
the project is a Feedback Portfolio, providing
side more accountable for performance
9
access to a range of feedback techniques
delivery.
30
and results, and made available via the World
In spite of this, resources for feedback
1
Wide Web. A prototype can be seen at
are still thin on the ground. Many clients
2
www.usable.buildings.co.uk. The project was
don’t see why they should pay. Nor, for the
3
initiated by the Confederation of Construction
most part, do designers and builders, who
4
Clients and sponsored by the UK Department
also fear uncovering problems for which they
5
of Trade and Industry under its Partners in
may then be held responsible, at best giving
6
Innovation programme. However, the views
them more (probably unpaid) work to do and
7
expressed are those of the author.
at worst landing them in court and uninsurable.
8
In addition, the hope that PFI1 procurement
9
more feedback and not just in the UK. A
would magically close the feedback loop has
40
review by the Federal Facilities Council in the
so far proved forlorn – PFI teams need
1
USA (2001) presents a very similar picture
feedback tools too.
2
There is clearly a perceived need for
and we have also had support from Canada,
In order to make feedback routine, there
3
Australasia, and the Netherlands. Partly this
is a strong case for making a commitment to
4
seems to be because international trends
feedback (during briefing, design, construction
5
have caused senior management to focus on
and for at least a year afterwards) a contractual
611
21
Designing Better Buildings
requirement; and for the processes and
Some history
services to be defined and paid for accordingly. Proposals for project insurance may make this easier, as may a widespread demand for
The Building Performance Research Unit
feedback services. In our workshops and in some papers
Following a major review of architectural
reviewed, there have also been pleas to
practice, in 1963 the RIBA (the Royal Institute
regard feedback as much broader than the
of British Architects) published its Plan of Work
design and construction project – i.e. across a
for design team operation, which included
portfolio and from cradle to grave. Many
Stage M – feedback. Later in the decade,
clients are also particularly interested in
twenty architectural and engineering practices,
looking at the full range of business benefits,
the RIBA, the Architects’ Journal and the
and less concerned with the building-related
Ministry of Public Building and Works
ingredients such as occupant satisfaction and
sponsored the Building Performance Research
technical and environmental performance.
Unit (BPRU) to undertake feedback, bring
While we appreciate these arguments, they
together research, teaching and design on
do not fit well with the actuality of the scarce
building performance, and publish the results.
funds for feedback and the widespread
BPRU only lasted four years in this form.
ignorance of even the simplest issues. We
Its work was largely on comprehensive schools.
fear that the best may be the enemy of the
The results were published in 1972 in the book
good; and that a more effective way to entrench feedback may be to find enthusiastic partners with whom one can demonstrate modest but robust successes, which then trigger virtuous circles in performance-driven organisations. Regarding feedback techniques, there was a call for more clarity on the techniques available, how to get hold of them, how much they cost and the benefits they were likely to deliver. Here the proposed Feedback Portfolio will help, and this will also
Building Performance (Markus et al., 1972). While today the book strikes us as rather theoretical, its practical findings still ring true, for example an obsession with first cost, repeated mistakes (e.g. untreated timber windows failing and being replaced by the identical product), poor strategic fits between buildings and what goes on inside them (e.g. classroom sizes), and single issues (e.g. daylight factors) dominating the design, preventing effective integration (and the required daylight factors were not achieved anyway!). The book included a plea for architects
include examples of successful and cost-
to be more involved in feedback. Ironically, in
effective outcomes. We have identified four
the year it was published (1972), the RIBA
principal kinds of technique. These can be
omitted Stage M from its publication on
used separately or together – many people
architects’ appointment, reportedly because
got the best results from combining hard and
clients were not prepared to pay for feedback
soft issues.
as an additional service; and the RIBA did not wish to create the impression that feedback
1
Observations
would be undertaken as a matter of course.
2
Questionnaires and interviews
Today the wheel seems to have turned full
3
Facilitated discussions
circle, with the RIBA (1999) saying that
4
Physical monitoring, testing, and analysis of performance statistics.
the biggest improvement to be made [in customer focus] is in systemising
22
Bill Bordass
feedback and in instituting post-occupancy
own experience, and allows the same
111
evaluation.
problems to persist in building after building.
2
In addition, since outcomes are not routinely
3
However, Stage M is not yet back in their
assessed, simple, effective solutions are
4
standard published documents (RIBA, 2000).
often not appreciated for the successes
5
they are;3 and over-complex alternatives are
6
instead developed unnecessarily.
7
Why did BPRU fail to flourish? A statement in the book may provide the key:
8 The study found that there was far too little
9
feedback of in-use experience into briefing and
10
design. This could easily lead to poor fit
1
BPRU was more interested in research
between the physical building and the way in
2
than in developing devices, however
which the occupiers wanted to operate it. A
3
practical, without a sound theoretical
lack of feedback information also meant that
4
framework.
operational cost predictions did not relate to
5
outcomes in practice. In addition, the amount of
6
To wish to develop theory at the expense of
alteration that often took place in the first years
7
practical opportunities for improvement may fit
of a building’s life could make design
8
the priorities of academe, but (as discussed by
assumptions on component lifetimes faulty.
9
A major recommendation of the study
Cooper (2001)) might well have distanced BPRU
20
from the designers, clients, operators and users
was for more post-occupancy evaluation (POE),
1
it had intended to serve.
an investigation of the opportunities and
2
barriers to POE (which CRISP commissioned –
322
see CRISP 3 below), better dissemination of
4
information on building performance, and a
5
review of the degree to which the feedback
6
results already available actually reached
7
decision-makers.
8
Highlights from some recent reviews CRISP 1 – How can long-term building performance be built in? (Blyth, 2000) This study of flexibility and adaptability in buildings for the Construction Research and
9 30
CRISP 2 – Matching design assumptions and conditions in use (Warner, 2001)
1 2 3 4
Innovation Strategy Panel has important implications for feedback. In particular, it points
This study looked at how design assumptions
5
out that:
are made, how conditions in use affect them,
6
and how the situation could be improved. It
7
concluded that:
8
•
The relationship between occupiers and
9
buildings is constantly changing. •
There are often clashes between
•
operational requirements and physical
40
adequately to inform designers.
1
Building services installations are some
2
Designers seldom get feedback after a
of the least understood aspects, as
3
building is completed and only notice
illustrated by their taking the top three
4
problems when they are asked to
slots in the survey for both over- and
5
investigate a failure. This tallies with our
under-specification.
611
facilities. •
2
Occupants’ knowledge is not being used
•
23
Designing Better Buildings
•
•
Performance measurement is not an exact
clients regarded legal action as the last
science, making benchmarking difficult.
resort, and much preferred to keep lines of
Feedback is essential for benchmarking.
communication open. POE was likely to
Very few POEs are undertaken. For those
help this to happen.
that are, the information usually stays •
within the client and consultant group.4
Various technical ways of removing the
There is a perceived need for a ‘keeper of
insurance barriers were explored. On the rare occasions on which POEs
information’ of good and bad examples of •
buildings and processes.
were done, they were usually in the first year
Facilities Managers (FMs) are usually
of occupation, most often on staff or client
treated as caretakers and not involved in
satisfaction. They could be undertaken by in-
briefing; there was also no home for any
house teams, outside organisations, or both.
feedback FMs had, and no system to take
Occasionally they were planned from the outset
their experience back to designers.
of a project. They might even become part of team appointments – as is being proposed for
The report identified a feedback vacuum, with
UK government clients. Benefits of POE were seen to accrue to:
few linkages to those who actually ran buildings. •
The client, in demonstrating achievement, understanding areas of success and failure,
CRISP 3 – Encouraging postoccupancy evaluation (Jaunzens, Hadi and Graves, 2001)
•
This report looked at ways of making POE
•
facilitating any remedial action, and demonstrating concern for users. The designers, in helping to fine-tune the building and inform future designs. FMs, in helping them to identify and solve problems, and to understand the potential
more routine and overcoming barriers, e.g:
of the building and how to run it better. •
Unwillingness by clients to pay for POE –
•
In the longer-term, better and more costeffective buildings all round.
especially occasional clients, who saw the main benefits going to the design team and •
their next client.
The report proposed that the following
No POE in standard conditions of
measures could improve the uptake of POE:
engagement for designers. Architects did at least have it as an option. However, there
•
was no clear guidance on what service
simplest way would be to make POE
should be provided; and a standard text
routine, so there would be no unusual risks in doing it.
(Chappell and Willis, 1992) regarded it as being more about process than product or •
24
•
For clients to be encouraged to regard POE
performance.
as a service worth paying for (or doing
A lack of clarity generally on what should
themselves). This would need clearer
be done, who should do it, what it should
demonstration of costs and benefits.
cost, and what the demonstrable benefits •
A clarified insurance situation. Perhaps the
•
To define more clearly the techniques
were.
available and the associated levels of
Widespread concerns by designers about
service and cost, perhaps with
insurance and liability issues, though these
endorsement by institutions and trade
seemed more theoretical than actual. Most
bodies.
Bill Bordass
Recommendations to CRISP included:
Lost in-house knowledge, often tacit and
111
informal, needs to be replaced. POE is being
2
•
A web site with accredited case studies.5
asked to fill the gap; and to go beyond user
3
•
A cross-party forum for clients, designers,
satisfaction to all activities which affect how a
4
insurers and contractual bodies.
building performs. POE is no longer an option,
5
Defining client requirements for POE
but essential to regain lost skills and stop
6
service packages.
customers becoming victims of a supply side
7
Investigating whether it would be practical
which does not understand their real needs or
8
to tighten building briefs to concentrate on
how its products really work in use.
9
• •
10
The FFC sought:
expected performance, together with the
1
appropriate testing mechanisms. A standard definition of POE and a
2
standardised, consistent methodology to be
3
used across agencies. The review found
4
that this was neither necessary nor
5
desirable.
6
Methods and technologies of data
7
1987 a federal committee identified widespread
collection. Information technology was seen
8
lack of institutional support. The committee
as the key – perhaps too much so in our
9
opinion. You learn a lot on a site visit.
20
Costs. Quoted costs ranged from
1
1
The American experience North America has long experience of POE. While some federal agencies do it routinely, in
2
recommended: 3 •
making POE more rigorous and systematic;
US $1,800 for a simple questionnaire
2
•
laying the groundwork for a database on
to $90,000 ($2.50 a square foot) for an
322
in-depth exercise.
4
Benefits. These included support of policy
5
development; testing new concepts;
6
improving standards and design guides;
7
In practice, not much seems to have happened
getting lessons back to the supply side;
8
since, so in 2001 the Federal Facilities Council
making designers and owners accountable
9
reviewed the situation and published their
for building performance; supporting major
30
findings (Federal Facilities Council, 2001). See
decisions and avoiding past mistakes;
1
also Bordass (2003).
monitoring quality and functionality;
2
improving performance over the life cycle
3
and involving occupants actively in
4
evaluation and improvement.
5
Organisational barriers. Few organisations
6
building use and performance; and •
establishing a clearing house to assemble,
4
maintain and disseminate POE information.
Why this new interest? The preface suggests it was the result of the management trend to focus and downsize organisations and to outsource services: •
•
5
did POE: they had not created conditions
7
On the upside, this focus has caused
for learning, organisational structures got in
8
Boards to see buildings as ways to achieve
the way, they were unclear about the
9
strategic goals: customer satisfaction,
benefits and fearful of staff reactions if
40
innovation, time to market, worker
problems were exposed and not put right.
1
retention and productivity.
Without senior commitment, they were
2
The downside is that Boards have
reluctant to appoint outsiders; and
3
downsized their in-house buildings
government agencies could not find time
4
expertise, outsourced essential feedback
and money for new things anyway! POE
5
loops, and lost the capability to deliver!
can also expose failure, which is not
611
25
Designing Better Buildings
rewarded – either in-house or by politicians,
Post Office used to commission professional
journalists and auditors. This fear (and the
surveys, but now uses a self-completion
lack of systems) meant that information
questionnaire for the manager of a new facility.
stayed within the project. These issues are
US embassies also make use of questionnaires
very similar to those raised in the UK
before deciding which experts they need to
reviews and in our recent discussions with
send out for any detailed investigation.
clients. 6
For a successful POE programme,
Performance metrics for POE programmes.
organisations were encouraged to:
In appendix B to the Federal Facilities Council’s (2001) technical report Heerwagen
•
Take the initiative to collect the information,
advocates a ‘balanced scorecard’ to help
make time to make sense of it, and have
avoid myopia, particularly financial. It has
the will to share it.7
four aspects: •
•
financial, e.g. reducing costs, increasing revenue, improving productivity;
• •
•
Create broad opportunities and incentives
•
Identify critical stages where feedback can
for participation and reflection.
customer relations, e.g. presenting a more positive face to the world; and
•
to signal the importance of the exercise.
business process, improving workflow and outcomes the organisation values;
Have long-term management commitment
be built in. •
human resource development.
Require involvement in POE in contracts and pre-qualification for suppliers.
•
Provide simple databases, cross-links, and
She recommends establishing metrics at the
different information for different
start of a project and tracking them through.
audiences.
Some may apply to all an organisation’s stock,
•
others may be highly context-specific.
complaints or controversy, to avoid
Successful programmes were usually linked to some sort of business driver, for
repetition. •
example:
Do POE on innovative buildings to decide whether to continue with the innovations.
• •
Build on projects where there are
When facilities seemed to be putting off
Start by creating protected, small-scale opportunities for innovation and evaluation.
customers (e.g. US Army and Post Office). •
When facilities were critical to the business
A successful POE itself was thought to require:
mission (e.g. Disney Corporation). • •
Where specific linkages to briefing and
•
A clear statement of what the organisation
evaluating innovations had been made.
wants to achieve and the part evaluation
For fine tuning asset management and
plays.
space planning (e.g. Bell Canada and World
•
Bank).
To match the resources for data collection and analysis to the available time and budget.8
Where POEs were undertaken, it was almost
•
To decide if it was a one-shot case study
always in the first year of operation (though
(which may need to be thorough to have an
Disney also does continuous assessment).
impact), or a standard approach which
Once the initial purpose had been achieved,
could build up information more slowly over
some exercises were scaled back, either to
time (but would need clear and consistent
save money or because the organisation had
terminology, definitions and documentation
6
learnt what mattered. For example, the US
26
to assist comparisons).
Bill Bordass
•
Identification of the likely users and how
111
A major conclusion was that feedback
they will need the results communicated.
would help to add value without increasing
2
A mixture of qualitative and quantitative,
cost, by linking more closely the means (the
3
direct and indirect techniques.
constructed facility) to the client’s ends, and
4
thus stopping the project itself becoming the
5
If questionnaires were used, they must be
end and thereby losing touch with fundamental
6
designed by a skilled person, with items
requirements. In addition:
7
•
evaluated for usefulness, validity, discrimination and balance. Occupants must be told why it
8 Clients should define their ends more
9
clearly and undertake monitoring and
10
reality-checks.
1
Designers should seek to understand more
2
about how buildings really work and make
3
them better, more robust, more usable and
4
more manageable.
5
The supply side should establish ‘no
6
surprises’ standards and provide support
7
This unique series of twenty published post-
after handover, for example with provision
8
occupancy surveys ran in the CIBSE journal
for ‘sea trials’ periods in standard contracts,
9
Building Services from 1995 to 2002. A special
with much better proving of system
20
issue of Building Research and Information
performance and provision of aftercare to
1
•
was happening, how the results would be used, if they would get them; and if so, what for and in how much detail.
Probe – Post-occupancy review of buildings and their engineering
•
•
clients and occupants.
2
FMs should monitor, be more responsive,
322
commentaries from experts around the world,
and represent client requirements more
4
and a response by the authors (Bordass,
strongly.
5
Professional institutions should encourage
6
feedback as part of normal practice.
7
(Lorch, 2001) includes five papers on the method and conclusions. These in turn led to
Leaman and Cohen, 2002).
•
•
Probe shows that it is possible to put
Government should encourage feedback
8
the public domain. Its principal tools of an
and measures which lead to all-round
9
occupant questionnaire and an energy survey
improvement.
30
feedback information on named buildings into
•
provided benchmark comparisons and rapidly
1
unwrapped into other issues, e.g. briefing,
2
procurement, build quality and business and
Types of feedback technique
3 4
facilities management. Probe itself was oriented at extracting general messages for designers and their
From feedback to knowledge management
5 6 7
clients, rather than specifically feeding back to the building itself and the teams concerned.9
There are perhaps five levels to implementing
8
Occupiers already operating monitoring and
feedback systems:
9 40
feedback systems used the Probe results to make further improvements, but those that weren’t didn’t necessarily react. Cultural change and incorporating feedback within routine design, construction, procurement and management practices are therefore important.
1
The will to do it, particularly at senior
1
level.
2 3
2A Tools to help gather information on
4
individual projects.
5
2B Tools to help people (clients, designers,
611
users) get together to discuss how a
27
Designing Better Buildings
project went in a constructive way, to
Type 1 – Observation
consider any data generated by 2A, and to
Typically walk-through surveys, for example:
learn from it.10 3
Means of turning the results of 2A and 2B
•
County Council used to walk through their
with the parties concerned (e.g. client,
recently completed projects and assess
design and construction team, users,
their impressions against a standard checklist.
11
managers). 4
Experts from Hereford and Worcester
into useful, actionable knowledge, starting
Consolidating this knowledge into
•
The Probe surveys make good use of walk-
organisational learning, or so-called
throughs of all parts of a building including
Knowledge Management (KM) in ‘learning
service areas and plant rooms. These
organisations’. In our discussions, clients
permit not only visual observations but spot
(even leading ones) said that they were
tests, and spot measurements with hand-
not yet good at this – a problem shared
held instruments. At the same time they
with most construction industry
create opportunities for informal
companies, and also confirmed in the
discussions with staff – from which much
North American review (Federal Facilities
of value can emerge.
Council, 2001). 5
Bringing all this together into industry learning.
Systematic observations can also be undertaken, for example of how customers use a facility, or how staff undertake their work or, say, operate a control device.
Relevance to the current project The project we are doing focuses on the nuts and bolts of data collection, i.e. Level 2, particularly 2A. However, many clients thought that the main problem was not a lack of techniques but of the will to use them (Level 1). Levels 3, 4 and 5 are largely beyond the scope of the current project, but are covered in
Type 2 – Facilitated discussions for teams, clients and others General guidelines have been developed and tested in the ‘Learning from Experience’ project (D. Bartholomew Associates, 2003) – not just to discuss the outcomes of a completed project (hindsight reviews in LFE’s parlance), but during it (insight reviews), or before starting (foresight reviews). A format for post-project review
others and will where appropriate be added to
workshops (fora) has also been developed by
the Feedback Portfolio.
de Montfort University for the Higher Education Design Quality Forum (2000) and is now being applied in other sectors.
Four principal types of technique for collecting Level 2 information
Type 3 – Questionnaires and interviews Many techniques are already in use and will be
We see four principal ways of collecting data,
reviewed in the course of the project (see
as outlined below. These can be used
Chappell and Willis, 1992). Workshop
separately or together. There is widespread
discussion suggested that there was scope for
agreement that the most successful feedback
coordinating some key survey questions12 in
exercises tend to combine both hard and soft
order to improve consistency, provide useful
issues, and both qualitative and quantitative
benchmarks and contribute to Key Performance
methods.
Indicators (KPIs).
28
Bill Bordass
Type 4 – Physical monitoring, testing, and analysis of performance statistics
111
Most construction projects have experimental aspects
2
This can provide objective information, most
3
easily on the internal environment and utility
Except for the most standardised and
4
consumption – for which detailed information is
repetitive projects (and even these need
5
increasingly available routinely from electronic
monitoring and feedback for quality control
6
building management systems (BMSs), at least
purposes), every new piece of construction is
7
in principle.
to some extent a hypothesis and its
8
performance in practice is the experiment.
9
But where are the designer/experimenters?
10
In the distant past, when technology and user
1
requirements changed slowly, one could
2
perhaps rely on evolutionary feedback and
3
the occasional catastrophe. More recently, one
4
could look to academic study and the test of
5
How can we get more feedback to happen? Not enough feedback is happening
time. But today, when things are changing so
6
The construction industry is often slow to learn
fast, there is really no alternative to learning
7
from its completed projects – particularly how
on the job.
8
they perform in the hands of their users.
9
Problems can therefore persist, successes be
20
overlooked, and innovations miss their targets.
The problem for clients
1 2
Feedback is not routine in the industry: there are many barriers and not enough drivers; and in
Clients are becoming aware that insufficient
322
this the US experience reviewed above sounds
feedback within the industry is a problem
4
very similar to the UK’s. Perhaps the greatest
for them too; particularly now they are coming
5
barrier is that the benefits are spread around, so
to understand that facilities cannot be taken
6
no one party sees themselves as reaping
for granted – but can add value to (or
7
enough of the benefit to bear the cost. The
subtract it from) their core businesses. At the
8
supply side also fears that they may expose
same time, many have outsourced their
9
problems which they will then get blamed for.
feedback loops and find themselves more
30
at the mercy of the supply side of an
1
industry which frequently does not ask the
2
right questions and does not know enough
3
about what happens to its products after
4
But shouldn’t the supply side get things right first time?
they have been handed over. While abject
5
Ideally perhaps they should, but this is
failures will come back to haunt them,
6
unrealistic in the present situation where they
disappointments often do not, and can even
7
do not routinely examine how their products
be regarded as successes and repeated
8
really perform in practice. In addition, by their
virtually indefinitely.
9
very nature, innovations cannot always be ‘right
40
first time’. However careful you are in planning
1
and testing, there will always be surprises, as is
Will clients have the time?
2 3
well known in R&D with its all-pervasive 13
How can we make feedback happen in a world
4
method is based on hypothesis, followed by
where clients seem to be increasingly short of
5
experimental testing.
time? Many clients do not even have time to
611
‘Murphy’s Laws’.
That is why scientific
29
Designing Better Buildings
make their requirements clear to design teams
Feedback in the real world
and to get involved in the necessary dialogue as the project progresses. How will they fit in
For the current project, we are therefore
feedback too? And how will the results be
promoting feedback as something practical,
managed, not just for the clients and teams
relevant and immediate. We suggest it is
concerned, but for buildings which will also be
regarded as what Robson (1993) calls real-world
in the public interest and to meet the
research. Some principles (developed from
challenges of sustainability, which stretch far
Box 1.2 of Robson’s book) are summarised in
into the future and well beyond the business
Figure 3.1. This is not to say that feedback
concerns of today’s customers?
cannot be used to test and develop theories – far from it – but that its focus should be on results and improvement.
Does post-occupancy evaluation get in the way of feedback?
Where should we start?
We started the project seeing close parallels between feedback from completed projects and post-occupancy evaluation (POE). While undoubtedly there are, our research suggests that we should distance feedback from POE, as revealed in our workshops and in the FFC review in the USA (Federal Facilities Council, 2001). Rightly or wrongly, for many people POE has an aura of being somewhat
In our discussions and in some of the papers reviewed, people have mentioned the need for a cradle to grave approach, with a construction or refurbishment project being merely a small incident in a facility’s life cycle; and an even tinier one in that of the organisations involved. People also mention a comprehensive approach, covering not just construction-related issues but overall business benefits.
academic and remote from clients, practice and project delivery. Instead, feedback – together with follow-through beyond project
Is the best the enemy of the good?
delivery into aftercare support – needs to be seen much more as a routine part of any
We agree with these sentiments, but also see
project.
that – in spite of the undoubted benefits –
Solving problems Predicting effects Getting large effects Looking for robust results and actionable factors Developing and testing programmes, interventions,services etc. Field Outside organisation Strict time constraints Strict cost constraints Little consistency of topic Topic initiated by sponsor Often generalist researchers Little use of ‘true’ experiments Multiple methods Oriented to the client (particularly in reporting) Viewed as dubious by many academics Need for well developed social skills
30
rather than rather than rather than rather than rather than rather than rather than rather than rather than rather than rather than rather than rather than rather than rather than rather than rather than
just gaining knowledge finding causes relationships between variables assessing statistical significance developing and testing theories laboratory research institution as long as the problem needs as much finance as the problem needs high consistency of topic topic initiated by researcher typically highly specialist researchers much use of ‘true’ experiments single methods oriented to academic peers high academic prestige some need of social skills
3.1 Real-world research (after Robson, 1993)
Bill Bordass
many organisations are not prepared to invest
seriously preparing their consultants and
111
in feedback systems. These may be two sides
contractors to meet the pressure test
2
of the same coin: they fear elaborate feedback
requirements newly incorporated in Approved
3
exercises because of their likely complexity,
Document Part L2 of the Building Regulations
4
expense and risk. To stop the best becoming
for England and Wales (DETR, 2000).
5
the enemy of the good, we suggest starting
6
small and simple: even a little useful feedback can begin to turn what are so often vicious
7
Feedback and project delivery
8
circles into virtuous ones, so starting small
9
and simple may be the best way of
The US experience (Federal Facilities Council,
10
developing effective systems which become
2001) is that where POEs are done routinely,
1
comprehensive over time. As Probe has
they nearly always happen in the first year after
2
shown, looking at just a few things begins to
practical completion. To get closer links
3
unwrap into many other issues. The agenda
between the supply side, users and managers
4
soon becomes longer than most organisations
during this vital year is also a conclusion of the
5
can cope with – so the problem rapidly
Probe team (sea trials) and other authors (e.g.
6
becomes one of prioritisation, and of identifying
the ‘soft landings’ idea of RMJM and the
7
specific issues which need to be explored in
University of Cambridge, the ‘continuous
8
more depth if the parties involved are
commissioning’ process developed by ABS, and
9
sufficiently interested in them.
Business benefits, or just better buildings?
the RIBA’s plea for more involvement in POE).
20
It is time for clients and the industry to
1
consider making a commitment to feedback
2
(right through the project as well as in first year
322
of operation) a standard part of project delivery.
4 5 6
Just getting sounder buildings would be a good start. As said in a CRISP review (Blyth, 2000),
Notes
7 8
most designers only notice that something is wrong when they are asked to investigate a
1
failure. For example, in 1998, on the basis of Probe results, we warned a developer to look
2
to the airtightness of their new buildings. Initially their designers said all was well when clearly it wasn’t. Then they said it would cost
3
more, but the developer did not want to pay as their customers wouldn’t. But then the developer had a problem building. Further
4
analysis then showed that over one-quarter of all complaints from their tenants were related to draughts, arising either from unwanted air
5
infiltration, from HVAC system and control problems, or a combination of the two. In turn,
6
questionnaire surveys reveal that complaints of this kind are statistically correlated with reductions in occupants’ perceived productivity. The developer is now in the vanguard of those
7
The UK Government’s Private Finance Initiative, in which public works are financed, designed, built and operated by the private sector. For example, in a hospital where designers had provided demountable ceilings for ‘flexibility’, the ceilings could not be demounted owing to concerns about infection control. For example, research by the Medical Architecture Research Unit, quoted in (Blyth, 2002), indicated that Nightingale hospital wards had proved more efficient in healthcare than many new alternative layouts introduced in the past 30 years. An exception is Probe – a series of twenty POEs published between 1995 and 2002. This also gives priority to building services and environmental performance. Some of these are already on www.usablebuildings.co.uk However, time moves on, so techniques based on yesterday’s priorities must also be alert to emerging new issues. Interestingly, even Disney did not have an integrated knowledge management database, but three separate specialist systems. Much dissemination was by personal involvement, with the engineers who were
31
9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
Designing Better Buildings
8
9
10
11
12
13
particularly involved in feedback acting as information carriers and being invited by teams to attend their meetings to inject their experience. Iterative techniques can also be useful here. For example, for overseas building operations, the US Department of State first sends out a postal questionnaire to identify the occupants’ views and concerns before deciding who will be on the team which goes to survey the building. The CIBSE TM 22 energy survey used in the UK Probe studies is also iterative, so a small amount of effort already gets a useful result, which can then be improved if everybody agrees it is worth doing so. Clients do commission Probe-type surveys too, but as a rule the results of these are used internally and not published. We are liaising closely with the parallel PII project on this aspect – Learning from Experience (LFE) (D. Bartholomew Associates, 2003). Reviews of demonstration projects by the UK Movement for Innovation (M4I) and similar activities suggest that participation and word of mouth are much more effective in practice than databases and the printed word, at least in the early stages. For example of staff, users, business managers, facilities managers, customers, and community interests. Murphy’s First Law: If it can go wrong, it will. Murphy’s Second Law: Murphy was an optimist.
References D. Bartholomew Associates (2003) Learning from Experience: the Manual, Cheltenham: David Bartholomew Associates. Blyth, A. (2000) CRISP Consultancy Commission 00/02, How can Long Term Building Performance be Built in? Blyth Consulting (August 2000). Available on the CRISP website at www.crisp_uk.org.uk Bordass, W. (2003) ‘Learning more from our buildings, or just forgetting less?’ Building Research and Information, in press.
32
Bordass, W., Leaman, A. and Cohen, R. (2002) ‘Walking the tightrope: the Probe team’s response to BRI commentaries’, Building Research and Information, vol. 30, no. 1, 62–72. Chappell, C. D. and Willis, C. (1992) The Architect in Practice, Oxford: Blackwell Science. Cooper, I. (2001) ‘Post-occupancy evaluation – where are you?’ Building Research and Information, vol. 29, no. 2, 158–63. DETR (2000) The Building Regulations 2000, Approved Document Part L2: Conservation of fuel and power, London: The Stationery Office. Federal Facilities Council (2001) Technical Report 145, Learning from our Buildings: a state-of-the-practice summary of post-occupancy evaluation, Washington, DC: National Academy Press. Higher Education Design Quality Forum (2000) Postoccupancy review of buildings (July 2000), downloadable from the HEFCE website, www.heestates.ac.uk. Jaunzens, D., Hadi, M. and Graves, H. (2001) CRISP Commission 00/12, Encouraging Post Occupancy Evaluation, Environment Division, BRE, February 2001. Available on the CRISP website at www.crisp_uk.org.uk. Lorch, R. (2001) Special issue on post-occupancy evaluation, Building Research and Information vol. 29, no. 2, March–April. Markus, T., Whyman, P., Morgan, J., Whitton, D., Maver, T., Canter, D. and Fleming, J. (1972) Building Performance, London: Applied Science Publishers. RIBA (1963) Plan of Work for Design Team Operation, London: Royal Institute of British Architects. RIBA (1999) Architects and the Changing Construction Industry, London: RIBA. RIBA (2000) The Architect’s Plan of Work, London: RIBA Publications. Robson, C. (1993) Real World Research, Oxford: Blackwell. Warner, P. (2001) CRISP Consultancy Commission 00/04, Matching Design Assumptions and Conditions in Use, Geoffrey Reid Associates. Available on the CRISP website at www.crisp_uk.org.uk.
Chapter 4
111 2 3 4
A client’s perspective on the value of good design
5 6 7 8 9 10 1
Dickon Robinson
2 3 4 5 6 7 8 9 20 1 2
Future generations will look back on the years
some will consider that, in the context of the
322
immediately before and after the millennium
popular view of post-war local housing estates,
4
and marvel at the number of major cultural and
the self-effacement of much recent social
5
engineering projects completed in such a short
housing built by Housing Associations is a good
6
time. These are exciting times architecturally,
thing. I must admit, however, that I am uneasy
7
and London in particular is enjoying magnificent
about this. While there are some extremely
8
new structures and buildings which show what
good Housing Association refurbishment and
9
the design professions can achieve. Am I alone
infill new developments, there is also a great
30
in feeling that by and large this upsurge of
deal of unexciting and frankly rather indifferent
1
creativity and ambition has passed the world of
development. I think too often an opportunity
2
housing by?
has been missed to make a major impact on
3
In the twenty-five years since the
improving the environment of our towns and
4
Housing Corporation was established, Housing
cities through this massive investment in the
5
Associations have spent billions of pounds of
urban fabric.
6
public subsidy and private finance. In many
7
ways it has been a period of great achievement. There are several hundred
8
A legacy of housing design
9
thousand households who have a decent home
40
and a roof over their head as a result. However,
Charles Handy has memorably remarked that
1
unlike the new towns programme, or the early
organisations can look as far forward as they
2
estates of the LCC, or even the high-rise
can look back – which puts my organisation,
3
towers and slabs of post-war reconstruction,
the Peabody Trust, at a distinct advantage. A
4
there is little sense that this investment has
quick look at our history is instructive. It was
5
created a significant built legacy. No doubt
created by a bequest of half a million pounds in
611
33
Designing Better Buildings
the 1860s, and became for the next twenty
has been more demanding for staff, and
years the leading housing organisation in the
accordingly within the development department
country in terms of public health, development
there was a clear need to review the levels of
volume, influence of its Trustees and sheer
skills and experience needed.
energy. By the end of that first twenty years
While the building professionals with
the Trust was housing over 20,000 people,
whom they deal have well-established
albeit in conditions which would be regarded as
academic training programmes, there is no
unacceptably crowded today.
similar training for clients. You cannot do a
However, the story of the Peabody Trust
degree course in being a building client – which
in this century has been one of eclipse, first by
is probably why most clients do not realise that
local authority building programmes, then in the
they are also developers. You have to cross
post-war period by an internal preoccupation
over from some other profession or career, and
with repairing wartime destruction, and later
those who come from other professions are
with modernising its stock in an external
too often looked on by their peers as having
climate where socialism emphasised individual
left the mainstream of professional life. Perhaps
rights and charitable philanthropy was regarded
it is not surprising that many residential social
with suspicion. At the beginning of the 1990s
landlords (RSLs) have traditionally recruited
the Trust was often referred to as London’s
development staff from a generalist rather than
sleeping giant, and regarded by many as a
professional background, including many from
rather stuffy and aloof organisation stuck in its
an earlier housing management career. While
Victorian past.
many have been effective, I tend to the view
Under new management in the late
that professionals often seem to get the most
1980s a major estate modernisation programme
out of other professionals, or at least the
was launched, and management policies
relationship is based on a greater degree of
overhauled. However, these initiatives made
mutual understanding and trust. As a result
little impact on Peabody’s public image, and
Peabody currently looks for a professional
indeed the latter did not really begin to change
qualification in one of the environmental or
until we began to promote adventurous new
construction professions or a related academic
building projects like London’s first foyers and
first or second degree.
an inhabited bridge at Bankside. Peabody began
The cumulative result of these steps is
to construct mixed-use housing projects that
that Peabody is now seen as a much more
everybody endorsed but few were prepared to
progressive organisation, and what it does is
undertake, and the Trust began to use cutting
seen as relevant to others, so its influence has
edge architects and competitions to produce
grown. I believe the crucial impact of the new
exciting buildings.
building programme cannot be overstated. Our
Peabody introduced carefully branded
buildings, like our clothes, send out powerful
site hoardings to create a sense of the scale of
messages to others about our values, our
our work with projects literally spread across
ambitions, our success, and our wealth or lack
the capital. Internally and externally this
of it. Too few organisations seem to understand
message was reinforced by showing that
this. No wonder organisations such as the
Peabody had reconnected with its creative early
Church of England have difficulty in establishing
years by embracing innovative funding
their relevance to modern society when all their
arrangements, procurement and construction
buildings proclaim medieval images. And no
techniques, and by diversifying into key worker
wonder image-conscious media companies
housing, low cost home ownership and
have forsaken Fleet Street and flocked to
community and economic development. This
Canary Wharf.
34
Dickon Robinson
111 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
322 4 5 6 4.1 Holland House, Newington Green by Rivington Street Studio, an example of an architectural competition winner
builders are not concerned with long-term
7
fitness for purpose and economic cost in use.
8
So we have learnt that we can use our
Kerb appeal is what matters in the war to keep
9
buildings to say positive things about us as an
shareholders happy.
30
Appealing, appropriate design
organisation but also, and I believe more
Fortunately the best Housing
1
importantly, to say positive things about the
Associations have stuck to their principles, their
2
people who live within them. Society today
standards and to appointing their own
3
often seems to be embarrassed that, while
architects. As with Peabody’s BedZED
4
most people are well-off, we still have a
development in Sutton, many other housing
5
substantial impoverished minority – the socially-
associations have energetically explored the
6
excluded in current parlance. Perhaps the real
green agenda, focusing on energy saving,
7
problem with the ambitious post-war housing
carbon dioxide emissions and ecological impact
8
developments was that they were too large and
in a way apparently absent from the private
9
obvious. Today we seek to eliminate this
sector. Not only do their schemes enhance their
40
embarrassing visibility of the poor by advocating
settings, giving a real boost to the
1
that their homes should be indistinguishable
neighbourhoods, but they are genuinely socially
2
from those the volume house-builders are
responsible.
3
putting up for owner occupation. Out of sight is
The comparison with the bottom end of
4
out of mind, but I for one am uneasy about this
the volume builders’ product is stark. Little boxy
5
attitude, not least because volume house-
detached houses facing in all directions are not
611
35
Designing Better Buildings
energy efficient, are wasteful in materials and
housing charity there is also our long-term
inflexible in use by nature of their minimal
interest in our asset base, on which our very
space standards. But this is difficult territory.
substantial borrowings are secured. Extra
Consultation with those affected directly or
attention to design enhances long-term
indirectly by development proposals is
attractiveness and is reflected in higher
important and sometimes leads to insights and
property values over time. Really well designed
opportunities which would otherwise be
buildings can trigger the improvement of run-
overlooked. But there is more – much more –
down areas. I believe we need to think more
to being a good client that simply consulting all
about the long-term and less about the short-
and sundry and seeking some middle way, for
term. Costs in use, and the appreciation and
there most likely lurks the lowest common
delight of future generations are important
denominator. Libby Purvis quotes Lord Reith’s
considerations – in contrast with the often fickle
working rule for the BBC as ‘to offer the public
and fashion-led tastes of current society.
something better than it thinks it likes’. I like
This is not easy, and it is not necessarily
that point of view and I believe it is nowhere
popular but I believe that clients have a
more important than in creating new buildings
responsibility to confront these issues,
and in particular those for the poor and
especially in areas which need regeneration.
disenfranchised.
Regeneration implies a new beginning, looking
As a client for a new housing scheme,
forward, not backwards, and therefore needs
one needs to distinguish between the interests
adventurous, youthful, contemporary
of immediate occupants and future generations
architecture and not reproduction building styles
of occupants. The same goes for those who
and an over-emphasis on reusing existing
live and work in the streets around. As a
buildings.
4.2 BedZED, designed to be the UK’s first carbon-neutral housing development by Bill Dunster Architects, and developed by the Peabody Trust in partnership with BioRegional Development Group
4.3 a and b. Dalston Lane, by AHMM. A controversial modern mixed use, keyworker housing scheme b.
a.
Designing Better Buildings
A quality process or a quality product?
their turn for at least as long. Once the building is completed, the dramas which surround its creation soon fade away. Today we do not dwell
Exploiting design to advance urban regeneration
on the relationship between Cubitts, who built
is an idea championed by Richard Rogers, but I
our earlier estates, and Henry Derbyshire, the
sense an underlying tension between the
Trust’s first architect. We know his designs have
important proposals put forward by Rogers in
withstood the tests of time and that the
his Urban Task Force (1999) report and Egan in
buildings were very well built. These were long-
his report Rethinking Construction (Construction
term relationships that lasted for over twenty
Task Force, 1998). Rogers sees urban
years – and incidentally we are proud today that
regeneration being achieved through design-led
a descendant of Cubitts the builders, Sir Hugh
construction projects, large and small. The
Cubitt, is Chairman of the Trust.
emphasis is on bespoke solutions to deliver an
Long-term working partnerships are
ambitious vision with utopian overtones. Egan
crucial to the success of organisations. There
suggests that better buildings are those which
are contractors, mainly small firms interestingly
are built faster, more safely, with fewer defects
enough, who are working for us today and have
and more cheaply. Some contractors have
been working for us for the last twenty years.
interpreted this latter agenda as endorsing their
There are some architects, quantity surveyors
view that the design process – and the
and engineers about whom I can say the same
architect – should be subservient to their overall
thing. To me the terms of their appointments or
project management. I find it hard to see how
the form of building contract is in essence
this model will deliver Rogers’ vision.
neither here nor there; we like the work they
The aspect of the Egan Report I most
do and will continue to feed it to them.
applaud is his emphasis on innovation at the
Absolutely fundamental to these relationships is
expense of conventional and established ways
continuity of personnel, which in turn is crucial
of doing things. I also particularly like the stress
to a sense of mutual confidence and trust. In
on building quality and involving people.
this context I feel some nervousness that
However, I am concerned that in the brave new
current enthusiasm for partnering arrangements
world he has stimulated there seems to be
is too simplistic in that it ignores the need to
more emphasis on the construction process
build trust over a period of joint working.
than on the product. Perhaps this was
I am also concerned that some people
inevitable as the organisations, particularly the
feel that a sense that all the parties are equal
Housing Forum, set up to deliver his vision are
and share the risks equally is implicit in
dominated by producers – by which I mean
partnering. This is not the real world. While I
contractors and house-builders – rather than by
am emphatically positive about close and
designers, which includes architects and
collaborative working, at the end of the day the
engineers. I for one find it difficult to
client carries the can. It is the client who is
conceptualise innovation in construction as
buying a service from consultants and
being a design-free thing. For me design and
contractors, and not the other way round. The
construction innovation should be one and the
product is more important than the process,
same thing.
and the over-attention being devoted to the
Which brings me back to my earlier
latter means that not enough thought is going
points about the legacy that we are creating.
into the legacy which we will leave behind us.
Many of the buildings which Peabody owns
In this context I am concerned that architects
have been steadily fulfilling their purpose for the
and engineers are losing influence in the new
past 140 years. Those we build today will last in
arrangements.
38
Dickon Robinson
supply chains and reduce dependency on
111
issues are less how we resolve the traditional
traditional building trades. Most subcontractors
2
confrontations between consultants and
are in the factory and not on site. This could
3
contractors than how our shared industry will
open the way for the emergence of dynamic
4
be reshaped by the all-powerful forces of the
new partnerships between architects and
5
global market and the Internet. While the brand
manufacturers – with designers acting as the
6
is king and major corporations swallow each
interface between client/developer and the
7
other in an unprecedented feeding frenzy in the
external environment, while the manufacturer
8
rush to achieve global domination, the Internet
provides the project management. Architects
9
is spawning a great proliferation of new
would have to develop new skills such as
10
business and niche players. While global
public relations, media communications, political
1
corporations are downsizing as fast as they can,
lobbying, public consultation, financial
2
all the jobs growth is with small companies.
modelling, costing their own designs and
3
design research. Only once all these have been
4
consultancies, economies of scale and an
mastered, and a share of the risk accepted,
5
international span are attractive goals. By
would the reward of designing the building be
6
comparison, most architecture, engineering and
earned, and with it the right to exert the
7
cost consultancies often appear like cottage
dominant influence over the form and
8
industries. But the challenge remains to show
aesthetics of the building.
9
Looking to the future, perhaps the real
For construction companies and large
how can you make greater size pay if there is
20
no standardisation of your product. Perhaps
1
California is leading the way in this new world.
Valuing design
2
322
In Hollywood, the studios are no longer the dominant force they once were. In the new
To conclude, I believe that building is a
4
world small companies and individuals come
development process and should be design led
5
together to create a movie then disband only to
– that design is about creating value, and that
6
reform with different partners to create the
high value leads to a lasting legacy. When we
7
next one. In some ways this doesn’t sound that
identify a site which we want to buy and
8
different from the construction industry we
develop we reach for our architect or engineer
9
know. However, the real difference is in the
to help us explore how we can maximise its
30
way risk and rewards are shared. Increasingly
potential and minimise any drawbacks it may
1
all the parties will have to bear some part of
have. We expect them to bring their knowledge
2
the risk, and the rewards will be different too.
of construction in so far as it is relevant at this
3
In the future perhaps there will be no fixed fees
stage, but generally we do not need to appoint
4
for consultants, but a slice of the action
a contractor to tell us how to build it before we
5
instead. A percentage of the box office will be
have decided what we want to build. This may
6
translated into a slice of the rental income,
sound simplistic, but it is about the difference
7
sales turnover, or even based on examination
between real property development and
8
results for schools or rates of recidivism for
building. The design process at its best extracts
9
new prisons.
the full potential out of a site and adds both
40
real and intangible values as well.
1
From our experience of volumetric prefabrication, I feel the most vulnerable player
2
This crucial dimension to development
in the new world may be the main contractor.
has been admirably highlighted by the Urban
3
We have learnt that building indoors in a factory
Task Force. It is worth reflecting that nobody
4
on a production line does reduce on-site risks.
has a bigger stake in the success of the urban
5
Production lines impose their own discipline on
renaissance than the poor. They are already
611
39
40
Dickon Robinson
4.4 Murray Grove: An example of marriage between exemplary contemporary design and off site volumetric construction (architects: Cartwright Pickard)
over-represented in areas of lowest
surprises, humour, a sense of security and
111
environmental quality and have the least choice
comfort. These are combinations to send the
2
in terms of moving to more attractive
spirits soaring. The essence of the excitement
3
neighbourhoods, or even being able to afford a
and stimulation of city living is something
4
holiday in order to get a break from bleak
architecture can do for everyone.
5
A bespoke, development-led approach,
6
housing is only part of the process. Just as
using factory-based construction technologies
7
important is creating neighbourhoods in which
to achieve a high quality product is the way
8
they would wish to live, and where they will
ahead for affordable housing. The pre-contract
9
find opportunities for employment and
period may take longer, but the result should
10
engagement with the good things of life.
cost no more if it exploits standardised
1
Improving our neighbourhoods is not something
construction processes. In the long run the
2
that can be achieved by simply placing standard
recipe for success is to work on the basis that
3
products there.
only the best will be the cheapest over time.
4
surroundings. Creating new social or affordable
Great architecture and urban design have
5
the ability to raise the spirits and give a quality of life beyond the imagination of many and
6
References
7
beyond the mundane consideration of mere utility: stunning views, private sun-drenched patios, interesting spaces, the interplay of sunlight and shadow, tactile materials, visual
8 Construction Task Force (1998) Rethinking Construction: the report of the Construction Task Force, London: DETR. Urban Task Force (1999) Towards an Urban Renaissance, London: E & FN Spon.
9 20 1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
41
Chapter 5
The long-term costs of owning and using buildings Raymond Evans, Richard Haryott, Norman Haste and Alan Jones
As the world becomes an increasingly
changing requirements. Changes in the
competitive place, companies are being
technology used in buildings not only impact on
required to operate on a global basis. This
the way people within a building work but also
causes increased downward pressure on
have an effect on the way the building itself
margins. In order to outperform their
operates. They also affect the nature of the
competitors these global companies are
physical structure and configuration of the
seeking differentiation combined with an
building. There have, in addition, been a
increasing emphasis on improving product
number of developments in the way that
performance and reliability and reducing cost
buildings are procured. An example within the
through improvements in efficiency.
public sector is the introduction of Private
The cost of ownership and maintenance
Finance Initiatives. These are bringing a
of buildings, combined with the cost of the
‘whole-life cost’ approach to the procurement
staff who work in these buildings, is significant.
of various types of public buildings, including
The optimisation of productivity of people is a
amongst others, hospitals.
source of significant competitive advantage,
Buildings by their nature have long
particularly when the cost of ownership is
design lives, whilst the requirements placed on
considered over the medium term. The nature
them are changing rapidly in time horizons
of work and the way that people interact in the
which are short, particularly when compared
workplace continue to change, driven not only
with the design life of the building. This can
by changes in technology but also by the
lead to complex and competing requirements
personal expectations of the staff themselves.
throughout the various stages of the life of a
Changes to the demands placed upon
building. Understanding the interplay between
buildings mean that the buildings must be
conflicting requirements and the surrounding
capable of adaptation to meet these new and
issues is essential for both potential owners
42
Raymond Evans, Richard Haryott, Norman Haste, Alan Jones
and managers of buildings, as well as for
operators of buildings to enable improvements
people involved in the production and
in productivity to be realised.
commissioning of new buildings, in order that informed and balanced decisions can be made. A key point of this chapter is that
A building costs money to run, and breakdowns and failures in the function of the building are unsatisfactory and result in
buildings designed for the accommodation of
unnecessary costs. The functional content of
people generating wealth, or people providing a
the building will generally be changed, at some
service, must create an environment where
considerable cost, at regular intervals during its
people will give their best. The cost of
lifetime. The objective of this chapter is to
ownership and maintenance of a building is
highlight the main issues that arise, so that in
typically about 3 per cent of the overall cost of
the medium term improved systems and
the people working in the building. A useful
methodologies can be developed to enable
guide for the whole-life cost of operating and
better and more objective decisions to be made
owning commercial office buildings is illustrated
at all stages throughout the life cycle of any
by the ratio 1:5:200, as shown in Figure 5.1.
building. This chapter has been produced jointly
Similar ratios might well apply in other
by a working party comprising the four authors,
types of building. There is a good deal of
who individually draw on respective and
evidence that the building itself, if properly
complementary areas of expertise.
designed and managed, can lead to significant improvements in productivity. The split between the respective costs throughout the life of the
The role of buildings
building combined with changes in use, technology and other operational aspects, lead
Buildings serve a wide variety of commercial
to complex problems and conflicting pressures
and industrial uses. These range from
when trying to improve the productivity of a
structures to house large and complex process
given building. These issues must be addressed
systems where the demands of the process
on a whole-life cost basis to ensure that there
itself drive the primary requirements of the
is an appropriate balance between the
building, to buildings designed to house people
conflicting requirements.
operating a business where the physical
Other industries take great care over the
requirements of the staff or customers are the
management and productivity of their assets.
principal need. Whatever the business, the
For example, an aircraft operator carefully
underlying purpose of a commercial building is
monitors the health and usage of his aircraft
to act as a focal point to bring together
and plans maintenance and upkeep accordingly.
knowledge and to function as a platform on
Such organised management of assets is not
which to generate wealth for the business. In a
universal in the management and update of
similar way, public buildings, such as hospitals,
buildings. Whilst this chapter sets out a number
have to be built to meet their specific needs
of examples that illustrate how these issues
efficiently and effectively.
can be managed, there is a need for greater
The management philosophies adopted
awareness, further study and an increasing
within businesses change from time to time to
availability of integrated services to owners and
reflect new thinking and new ideas. These new philosophies affect the basic way in which
5.1 Ratios of capital cost, facilities cost and business operating cost
people within the building work and interact, for example, open plan, cell working and hot Construction cost Maintenance and building operating costs Business operating costs
1 5 200
desking amongst many other approaches. This chapter does not address the relative
43
Designing Better Buildings
advantages of these alternative approaches.
corporations in the USA to own their own
The issue is that the building in which these
buildings, with as many as 90 per cent of major
philosophies will be put into practice should
corporations doing so. There is evidence that
have the flexibility to adapt in order to cope
this tendency to own limits the demand for
effectively and efficiently with the prevalent
buildings that make a statement or convey an
philosophy at any one time.
image. Whatever the overall business objective,
There are also a variety of approaches
a building must be efficient and facilitate the
reflected in the ownership or custodianship of a
functions which will take place within it. In this
building. At the one extreme is an approach in
sense providing a building is no different from
which the building is constructed for a specific
any other service which must be of a suitable
need or purpose. Under this approach the
and appropriate quality that will enable the
building forms a key part of the process that is
business to function effectively. As has been
to be performed within it. In this situation the
mentioned in the introduction to this chapter,
capital cost of the whole built environment
the operating costs of the process carried out
forms an integral part of the overall process
within the building normally far outweigh the
itself. The process may have a limited life and
costs of both its construction and maintainence.
therefore all the capital costs, including that of
A key issue is to establish and use appropriate
the built environment, are written off during the
mechanisms for judging the value of a particular
forecast or anticipated life of the process. At
building against the operational productivity
the other extreme is the ‘investment’ approach,
forecasts of the business situated within it. In a factory or production facility it is
where the objective of ownership is to earn an income whilst at the same time preserving the
often relatively simple to measure productivity,
value of the asset.
but it can be much harder to achieve this in a
The type or design of a building may
commercial or service-based business. In this
also play an important role in making a
situation, perhaps the best indicators of
statement about the owner or occupier. There
productivity are those recommended by the
are numerous examples of such buildings and
American Society of Heating, Refrigerating and
for many architectural practices this element is
Air-conditioning Engineers (ASHRAE) workshop
one of the most important in the design
on Indoor Air Quality held in Baltimore in 1992
process. Whatever the business objective, the
(BOSTI and Brill, 1994):
role that a building is to play has an impact on the whole approach to the building life cycle. The life cycle can be divided into three
•
Absence from work, or work station
•
Health costs (including sick leave, accidents and injuries)
phases which must all be considered. These are:
•
Interruptions to work
•
Controlled independent judgements of work quality
1
Design and construction;
2
Operational period;
•
Self-assessments of productivity
3
Demolition/recycling.
•
Speed and accuracy of work
•
Output from pre-existing work groups
There is evidence that the approach towards
•
Cost for the product or service
building ownership is affected by cultural
•
Exchanging output in response to graded reward
preferences. There are a number of differences between the approaches favoured and adopted
•
Volunteer overtime
in the UK from those preferred in the USA. For
•
Cycle time from initiation to completion of
example, it is very common for major
44
process
Raymond Evans, Richard Haryott, Norman Haste, Alan Jones
• • •
Multiple measures at all organisational
efficient operation of the building will pay
111
levels
dividends in the business operating costs. A
2
Visual measures of performance, health and
previous study by Wyon (1994) suggests that
3
well-being at work
an extra 50 per cent increase in energy costs
4
Development of measures and patterns of
as a result of improved ventilation would be
5
change over time.
paid for by a gain of between 0.25–0.5 per cent
6
improvement in productivity. The responsible
7
Operational productivity may be influenced by
owner and designer will want to achieve these
8
up to 17 per cent by addressing factors which
productivity gains while still reducing energy
9
include noise, temperature fluctuation, lighting
costs, aware that these may become more
10
and glare, comfort, relocation frequency, layout
onerous in the future.
1 2
and the users’ perception and level of control.
3
One of these factors is air quality, and a recent study by Dorgan and Dorgan (1997, 1999)
Design and construction
4 5
examined the link between the productivity of employees working within commercial buildings
Whilst the construction cost may represent a
6
and the quality of the air within the buildings.
small fraction of the cost of ownership
7
Based on a number of existing research and
throughout the whole-life of the building, it is
8
other reports, the authors determined the
nevertheless a significant capital sum. It
9
capital and running costs of bringing the indoor
therefore remains important that the cost of
20
air quality (IAQ) within all commercial buildings
construction should be minimised and there are
1
in the USA up to ASHRAE Standard 62–1989
a number of ways in which this can be
2
and other accepted indoor air quality practices.
achieved. Some owners of buildings wish their
322
This study concluded that the increased
buildings to project, or be a statement about,
4
productivity that results directly from improved
the company itself – clearly this increases the
5
air quality provides a rapid payback period.
initial costs compared to a spec-built building.
6
Clearly, the actual payback periods for individual
The buildability of a building may be
7
buildings vary, depending on the specific
considerably improved by adopting a ‘loose-fit’
8
circumstances.
approach. This would include increasing the
9
areas allowed for services so that both design
30
productivity of the US economy could be
and construction can be carried out more
1
improved by $55 billion per annum by a one-
rapidly.
2
Overall, this study concluded that the
time investment of $120bn in works to improve
3
The cost of the extra space may be
poor air quality in all buildings. This benefit is
more than compensated for by a reduction in
4
achieved simply because the productivity of the
building costs achieved through simpler working
5
people working within the building is improved
with less interface and coordination problems.
6
as a direct result of improved air quality. This
This approach may also speed up the
7
research also shows that, in addition to the
construction period and therefore reduce the
8
productivity improvements, other cost savings
rolled-up interest costs accumulated during this
9
are achieved in salary and related profit
period. Rolled-up interest costs during
40
benefits. These benefits further reduce the
construction can represent a major element in
1
payback period which, in some cases, is
the cost of the build. On a large project this
2
reduced to a matter of months.
interest cost, whether real or opportunity, may
3
typically represent around 25 to 30 per cent of
4
discussion, there is sufficient evidence that
the overall cost during the construction phase.
5
investment by the owner/occupier in the
As an example, the introduction of additional
611
Even if the Dorgan figures are open to
45
Designing Better Buildings
plant space by inserting an interstitial
objective of modelling techniques is to inject
mezzanine floor in research buildings can
the maximum knowledge into the design
substantially reduce the time required for
process, helping to reduce waste and to
construction. As an additional benefit, this extra
improve the efficiency of both design and
floor also reduces the costs of operation and
construction as well as operation.
the costs of changes in the future. These
Determining and accurately evaluating
savings are achieved by what would initially
the relative advantages and disadvantages of
appear to be an increase in the construction
alternative options is clearly a difficult task that
cost. This loose-fit approach will reduce the
would be impossible without the use of
operating costs through simplified maintenance
computer-based modelling techniques. The
and will give greater flexibility in the use and
design and construction period may be reduced
adaptation of the building in the future.
by the use of systems that can be integrated
Both design and construction can be
between the different parties during this period.
speeded up by the adoption of modularisation
These systems allow for the rapid sharing of
and standardisation. The adoption of standard
data between all the various parties, improving
specifications for steel used in fabrication is a
coordination which results in quicker and
good example. The fabricators and the steel
therefore cheaper construction with a greater
suppliers are continually working to introduce
all-round team approach. There are numerous
fewer standard sections and fewer grades of
sophisticated modelling techniques available,
steel. This pressure will reduce the costs of
but these are not currently being fully utilised.
buildings, but it must be handled in such a way
The key challenge is to develop the skills and
that it does not reduce the ability to optimise
techniques to use these tools effectively in the
buildings for owners. The construction period
future, in order to derive maximum benefit and
can be reduced by improvements in labour
so that modelling becomes more of a science
productivity achieved through good design,
than an art, as it is now often considered. The
training and scheduling as well as by the
owner or user can be informed by the effective
effective management of the workforce. A
use of these techniques during design and
reduction in programme time, reworking and
operation phases.
better communication can also be achieved by the early involvement of constructors, suppliers and installers.
Operational period
Sophisticated computer-based modelling tools are now available for almost all elements
The issues that need to be considered during
and issues relating to the design of buildings.
the operational phase are highly dependent
The use of these techniques can have a major
on the process for which the building is
impact in reducing uncertainty in the
designed. The scope of this chapter is limited
construction period and therefore limit the risks
to buildings designed for occupation by human-
of cost over-runs. They may also delay the time
based processes. An integral part of this phase
by which final decisions must be made during
is being able to define the need of the business
the design and construction period. These
and to have a clear understanding of the best
models allow some very spectacular and
means of delivery. As discussed in the
complex buildings to be designed and built
Introduction, staff-related and other operating
which would otherwise not be possible. The
costs of the business that occupy the building
use of modelling techniques may increase the
are generally considerably higher than the cost
capital cost of construction but reduce the
of operating and managing the building itself. It
overall cost over the life of the building. The
is therefore important that during this phase
46
Raymond Evans, Richard Haryott, Norman Haste, Alan Jones
effective mechanisms for measuring the
related costs associated with achieving that
111
productivity achieved are established.
improvement. There are a wide variety of ways
2
in which these improvements can be achieved,
3
on environmental issues during the last few
such as departmental adjacencies and
4
years. These relate both to the internal
functionality, in addition to the environmental
5
environment of the building and to the
quality issues already discussed.
6
There has been an increasing emphasis
BA, in its new Waterside headquarters
7
including the disposal after use and demolition.
near Heathrow, gave a lot of consideration to
8
Surveys have shown that the environmental
the environment and working atmosphere from
9
impact of a building has now become the
a social perspective. The building is, in fact, a
10
second most important issue for building
series of buildings (not ideal for modularisation)
1
occupiers. The rate at which this concern has
and inside the building, functions as it has been
2
grown is highlighted by the fact that as little as
designed – to create a good atmosphere for the
3
five years ago environmental issues did not
people who work in it.
4
environmental impact of the building itself,
figure in the list of main concerns of building
There has been some debate about the
5
occupiers. This environmental concern, along
impact of technology on the office with the
6
with other non-financial issues, must be
possibility of teleworking and the emergence of
7
considered.
the virtual office. Evidence so far is that this
8
has had a more limited impact than previously
9
available to reduce both the energy
forecast. Some impact has been seen with the
20
consumption and the environmental impact of a
introduction of new working methods in the
1
building. The cost, however, of constructing a
workplace, such as hot-desking. This will have
2
low energy use building may be 10 per cent, or
an increasing impact, as will integrated
322
more, higher than the cost of constructing a
technology-driven systems that will allow
4
standard air-conditioned building. Energy costs
buildings to be operated more effectively in the
5
themselves represent only a small part of the
future, whilst allowing the occupier and user
6
overall operational costs of the business.
sufficient degrees of control over their
7
Various studies conducted within the USA and
immediate environment.
8
There are a number of technlques
UK show that staff costs are 100 to 200 times
As discussed, the adoption of a loose fit
9
the annual cost of energy (Oseland and
approach can speed up the construction
30
Williams, 1997). It must, however, be
process and therefore reduce the costs. This
1
remembered that future increases in energy
loose-fit approach can play a role in reducing
2
costs and environmental taxation could convert
operating costs by improving access to services
3
these issues into financial costs. Energy taxes
and the maintainability of the building. This
4
have already been introduced in some
approach also improves the building’s ability to
5
countries, including Singapore, where tax is
adapt to future needs. This is best highlighted
6
imposed on the thermal conductivity of the
by the problems of 1960s’ and early 1970s’
7
building. This tax can represent a significant
buildings, which now have insufficient floor to
8
proportion of the occupancy costs.
ceiling heights to accommodate current IT
9
requirements.
40
As previously discussed, the productivity of the process carried out within the building
1
Today, many offices have an annual
can be significantly affected by human
churn rate of 50 per cent or more as
2
behaviour and related motivational aspects.
departments and operating structures are
3
Achieving a 10 per cent improvement in the
constantly adjusted. Buildings and their systems
4
productivity of staff occupying the building is
must be flexible enough to accommodate this
5
likely to more than repay the additional building-
level of constant change, remaining
611
47
Designing Better Buildings
maintainable, whilst minimising the associated
demolishing and rebuilding. An alternative
disruption. Some of the key facilities that
option is to design buildings with a relatively
contribute towards improving a building’s
short design life that can be demolished easily
flexibility include additional conduits, excess
with the space and waste recycled quickly and
capacity of services including mechanical,
simply. This approach is adopted more
electrical and voice and data cabling. This
commonly in the USA than in the UK. The
flexibility may increase the original capital cost
facilities manager (responsible for achieving the
by up to 5 per cent but there is evidence (from
effective functioning of the building) plays a
the USA) that this investment has paid off in
critical role in maintaining productivity levels.
the longer-term.
Information, guidance, training and
The key issue is, of course, incorporating
communication have become key issues in
flexibility into the building in the right way so
operating the building to achieve these
that it can be used in the future. This, in some
aspirations. Feedback, operation, maintenance
ways, requires an ability to predict future
and replacement data also play a key role in
changes in practices and technology that will
informing the owner, designer, constructor and
need to be accommodated within the building.
supplier with regard to future projects, and the
As an example, a research-based company
facilities manager needs to be part of the
invested in flexible benching systems for a
process of measuring success.
research environment at a considerable premium. Having invested in this flexibility it turns out that the benches have never been
Conclusion
moved and therefore the inbuilt flexibility has not been utilised – yet. Changes in technology are happening
Optimising the productivity of people working in buildings is influenced by a range of
rapidly, with IT systems lasting from 18 months
complex and competing issues. The solution
to three years. This makes determining the
adopted must consider a wide range of issues
future a difficult task. The use of higher quality,
including the whole-life cycle cost and, most
and usually more expensive, material can
importantly, the actual cost and efficiency of
increase the period between refurbishment and
the business to be conducted within the
renewal. However, this may reduce the overall
building. There is no single approach that
life cycle cost of a building, and as a result will
should be adopted. The different circumstances
cause less interference with the business being
of each situation need to be considered.
carried out in the building with all the
Investing in a building to improve productivity
associated advantages of efficiency. This
would appear to offer a sound investment in
additional expenditure is wasted if the building
many circumstances and may have a key role
requires significant change or adaptation for
to play in achieving competitive advantage for
other reasons before the full life expectancy
the occupier of the building. However, the
has been realised. As an example, in airports
ability to carry out a detailed assessment
there are options of using partitions of steel
requires both the costs as well as the benefits
construction that can be relocated, or of using
of the improvement to be quantified. This is
dry-lining partitions that cannot be relocated.
relatively easily achieved with regard to the
With the configuration of an airport normally
costs; however, assessing the productivity
lasting no more seven years, determining which
benefits is not so easy.
is the most effective option is not simple. There is evidence that the cost of a major refit may be no cheaper than the cost of
48
In order that objective decisions can be made, there needs to be good quality information and data that will allow informed
Raymond Evans, Richard Haryott, Norman Haste, Alan Jones
decisions. Whilst there are a range of
111
References
techniques and strategies available to achieve this, the key challenge is to use these more effectively and more widely, in order to derive their full benefit and where necessary to develop new tools. These measures may need to be tailored to the specific requirements of each situation. The cost of property is often judged in terms of the rental cost per square metre. It might perhaps be more appropriate to examine the cost of occupation in terms of the people that are able to occupy the space or in terms of the output or productivity that can be achieved from that area.
2 BOSTI and Brill, M. (1994) Using Office Design to Increase Productivity, Workplace Design and Productivity, quoted in C. Lomonace, ‘Comfort and control in the workplace’, ASHRAE Journal, pp. 50–56, September 1997. Dorgan, C. and Dorgan, C. (1997) Productivity Link Assessment to Indoor Air Quality, Creating the Productive Workplace, October 29,1997. Dorgan, C., Dorgan, C., Kanarek, M. and Wilman, A. (1999) ‘Health and productivity benefits of improved indoor air quality’, ASHRAE’s Poster Presentation Award 1999. Oseland, N. and Williams, A. (1997) How Best Practice Can Improve Productivity: the relationship between energy efficiency and staff productivity, Watford Building Research Establishment Ltd, EE2898, BRE/109/9/4. Wyon, D. (1994) ‘Economic benefits of a healthy indoor environment’, Proceedings of Healthy Air, Budapest 1994, pp. 405–416.
3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
49
111
Part 2
2 3 4 5 6 7
Case studies of added value
8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
This section presents examples and case
from architectural investment, representing
322
studies from the sectors where most research
both tangible benefits of the sort that can be
4
has been undertaken into the issues of
counted by traditional cost:benefit but also
5
achieving quality and value – offices (Chapters 6
intangible benefits that are more difficult to
6
and 7), schools (Chapter 8), and healthcare
measure. Employee satisfaction was the most
7
buildings (Chapters 9 and 10). Chapter 11 deals
highly rated motivation; human capital is the
8
with design quality at the urban scale.
major resource of the organisations and they
9
seek to enhance the ability of their employees
30
conduct and findings of a substantial study of
to contribute to turnover and profitability.
1
high profile organisations that commissioned
Corporate policy in architectural investment was
2
new buildings during the late 1990s. He set out
also very important; design champions at senior
3
to enquire how a number of corporate clients,
levels within the organisation and corporate
4
whose expenditure on their new buildings
precedents for high quality architecture were
5
exceeded the market value, measured
both found to be important. For seven of the
6
architectural value in order to justify the extra
ten organisations, procuring a building was part
7
over-expenditure. He argues that if this
of a much wider corporate development
8
question can be understood – if the benefits of
process – with the goals typically of
9
architectural quality and value can be
transforming how the company does business;
40
demonstrated – then additional investment into
encouraging creativity, enhancing
1
the built environment can be released. His
communication, promoting team work,
2
chapter contains ten case studies of bespoke
operating less formally, encouraging flexible
3
buildings, and reports on the motivations of the
working and reducing hierarchy.
4
In Chapter 6, Jon Rouse describes the
case study organisations. All these organisations recognised the corporate benefits
As for how the benefits had been
5
quantified as part of the design process, three
611
51
Designing Better Buildings
of the companies attempted to cost out the
where equipment loads and the need for closer
benefits from intangibles – corporate identity,
control of the environment demand it, have
company branding, staff recruitment and
chilled beams and suspended chilled panels. As
retention – using known methods. However in
the project was carried out within a capped
four more, formal valuation processes more
budget, the incremental approach – based on
appropriate to financial reporting than to design
calculations comparing the costs of the
had been used. These had incorporated the
ventilation systems with the loss arising from
costs of the project but failed to take account
reduced staff productivity – help to direct where
of the corresponding benefits, particularly the
limited funds should best be invested.
intangibles. This was because of the constraints
Wyatt’s second case study is the Bristol
and restrictions of these methods, which have
and West headquarters. The client’s former
their roots in company law, accountants’
accommodation was variable in quality, with
standards and surveying practices. Rouse’s
much of it poorly suited to the equipment in
concluding argument is that we should stop
use, particularly where high thermal gains
using formal valuation methods for processes
resulted in overheating. Energy and
and purposes for which they were never
maintenance costs were also high. Performance
intended and which distort. Instead, new tools
improvements from constructing a new
are needed to account for value and we need
headquarters were forecast to be worth £6.5m,
to look to other disciplines – such as the
and informed the decision to build a new
behavioural sciences, engineering, psychology
building. In his third case study, he shows how
and economics – where potential alternatives
the new office complex for BP at Sunbury is
are already being investigated.
forecast to improve staff productivity while also
In Chapter 7, Terry Wyatt reports on
reducing carbon dioxide emissions arising from
functionality and performance in the case of
the building itself and from staff transport.
three major office projects, each of which
Wyatt’s conclusion is that the sorts of
demonstrates one of the key drivers identified
calculations he describes show how staff
in the Egan report – customer focus. In the
comfort, productivity and well-being have been
case of the MOD offices at Abbey Wood, he
successfully factored into decision-making
reports on the interior lighting and ventilation
about whether nor not to build, where to build,
systems. For the lighting, intelligent luminaires
what to build, and what level of services are
were selected that respond to daylight
appropriate.
conditions. The additional costs of these proved
In Chapter 8, Richard Feilden writes
to be less than expected, while savings in
about design quality in new schools. For almost
operating costs were larger than anticipated.
all of us, schools are the first buildings we
Both factors resulted in a payback period of
experience without the security of parental
only one year; they also have the benefit of
support. They are the places where children
simplifying future reconfigurations. An
spend a considerable part of their waking
incremental design approach was taken with
hours, and they leave indelible impressions. At
the ventilation system design. A robust basic
best, well-designed schools should enhance our
design with opening windows was selected for
experiences of learning, contribute to scholastic
lightly occupied shallow offices on the northern
achievement, stimulate interest in the built
façade. Normally occupied offices on all other
environment, and discourage truancy and
orientations have displacement ventilation.
vandalism. These expectations, when added to
Offices that are more intensively occupied and
local user requirements and national design
have larger heat gains have summertime
guidance (of which there is no shortage)
cooling and dehumidification. Finally, offices
together with strict budgetary constraints,
52
Case studies of added value
create substantial demands for designers to
hospital, the same medical team was in place
111
achieve.
together with the same patterns of patient
2
referral. Thus the only differences were the
3
building type, Feilden notes that we have a
environments in which the patients were
4
substantial legacy of schools, many from the
housed. The question focused on in the
5
Victorian age, which have proved remarkably
research was whether architecture contributes
6
robust. The legacy from the third quarter of the
to the well-being and recovery of patients. In
7
twentieth century, on the other hand, when
both hospitals, patients in the newer buildings
8
there was a great wave of school building,
expressed more satisfaction with the
9
contains relatively few bright spots and many of
appearance, layout and overall design of the
10
these schools have suffered from constructional
ward. In the newer environments, patients
1
and environmental problems. In the last quarter
reported they had received better treatment –
2
of the century fewer schools were built. Among
despite the treatment regimes being to all
3
these, the work of Hampshire County Council
intents and purposes identical. The attributes of
4
stands out, and Feilden illustrates some key
the new wards that patients identified in
5
examples of Hampshire schools. He also
particular were the opportunities for privacy
6
illustrates several secondary schools, providing
(though not necessarily for a single bed ward);
7
examples of the three main typologies: street
views of everyday life in the outside world,
8
plan, campus plan and linked pavilions. Drawing
apparent cleanliness of bathroom facilities; a
9
from all these examples, he presents ten key
cared-for interior appearance and a degree of
20
principles for good school design. The extent to
control of their environment in terms of noise,
1
which these will be delivered in practice
lighting, windows and blinds. Measures of
2
depends on a number of factors, not least the
health outcomes also show improvements in
322
method of procurement. The Private Finance
the new accommodation compared with the old,
4
Initiative is the route being increasingly used
a need for less medication and, in the mental
5
for schools. Its proponents claim that the
health ward, less aggressive behaviour and
6
integration of design, construction and
better progress. Lawson concludes that there
7
operational responsibility will raise quality.
was an improvement not only for the quality of
8
However, it is the legal and financial challenges
life of patients in the new buildings, but also for
9
that have received most attention so far, and
staff, and potentially cost saving for the NHS.
30
In his brief history of schools as a
early indications are that early PFI schools have
1
Chapter 10 Making special places for
fallen below best practice (Audit Commission,
health care is also about healthcare buildings.
2
2003).
Susan Francis writes about how society has
3
accommodated those with mental and physical
4
outcomes in the schools is improved recovery
illness in the past, and at the principles that
5
rates in healthcare buildings. Bryan Lawson
underlay the buildings provided for them. More
6
discusses this in Chapter 9, Assessing benefits
than 250 years ago, observations of recovery
7
in the health sector. He reports on a carefully
from disease in different sorts of
8
controlled experiment using two hospitals, one
accommodation led to belief in the therapeutic
9
in general medicine and the other in mental
benefits of sunlight and fresh air, strongly
40
health. In both hospitals new facilities were
influencing the layouts of wards and the
1
provided (at one hospital a ward refurbishment,
planning of hospitals.
2
The equivalent of improved educational
at the other a new purpose-built replacement
3
She reviews five historical models for
unit) and the study reports a comparison
healthcare buildings: the asylum-like custodial
4
between patients’ responses in the older
model; the medical model exemplified by the
5
buildings and the new/refurbished ones. At each
sanatorium; the caring model typified by the
611
53
Designing Better Buildings
hospice; the holistic model offering sanctuary
findings suggest a win:win situation where all
and the health-promoting model in which
stakeholders are beneficiaries. Investors see
medical care is supplemented by sports and
better returns, as do developers – with the
recreational facilities. She offers examples of
added bonus of enhanced company image.
each model and then moves to emergent
Designers benefit from repeat work.
themes and discusses current trends toward
Commercial occupiers benefit from improved
patient-focused care, where clinical
staff loyalty and health, and everyday users
environments are designed to be less austere,
benefit from an improved urban environment
and therapeutic environments where interior
and an enhanced range of amenities and
decor, lighting, views and ambience are all used
facilities. Local authorities also stand to gain
to enhance patients’ experiences and lift their
from revitalised and viable environments,
spirits. As she explains, healthcare design is
potentially with ripple effects to adjoining
undergoing a significant shift in emphasis, with
areas. Nevertheless, few schemes studied
an increasing focus towards how buildings are
benefited from all the aspects of value, nor
experienced by patients, how they allow
were the benefits automatic. Better designed
patients control of their environment, how they
schemes also have costs associated with
foster dignity and quiet, and how they
them, for example for higher materials
encourage continuing links between patients
specifications. Carmona ends by identifying a
and their community.
variety of principles for urban design that
Finally in this section is Matthew
should lead to the release of greater value
Carmona’s chapter, Adding value through better
in the built environment. These include the
urban design. He presents the results of a
need for critical mass to support urban
research project whose objectives were to
regeneration rather than small isolated
identify whether better urban design adds value
pockets of development; strategic coordination
and if so how, who benefits, and how greater
and planning of the infrastructure; careful
value can be released. Three pairs of projects
location and distribution of public amenities
were studied in the east Midlands, the west
and mixed use development; and finally
Midlands, and the north west. The conclusions
attention to social diversity and social inclusion
of the study were that better urban design
so as to minimise the displacement of those
does add value: it increases the economic value
in whose name urban regeneration is usually
of development, delivers social benefits, and
justified.
encourages development that is more environmentally supportive. His chapter gives details in support of each of these findings.
Reference
Overall he reports considerable economic, social and environmental benefits from better designed urban environments. His
54
Audit Commission (2003) PFI in Schools: the quality and cost of buildings and services provided by early Private Finance Initative schemes, London: Audit Commission.
Chapter 6
111 2 3 4
Measuring value or only cost The need for new valuation methods
5 6 7 8 9 10 1 2 3 4 5 6 7
Jon Rouse
8 9 20 1 2
In the decade since the recession of the late
companies. If we can then demonstrate and
322
1980s and early 1990s ended, there has been a
promote the business benefits to other
4
resurgence in the construction of bespoke
companies, we will see an increased
5
corporate buildings that exhibit recognised
investment across the board, with benefits to
6
design quality. In other parts of Europe this
the whole of the built environment.
7
trend has been sustained for a longer period,
In a research study of ten major building
8
but it is now clearly visible in the UK too,
projects (Rouse, 2000), I set out to find
9
where there are many examples of patently
answers to these questions. The research
30
good quality buildings commissioned by large
began with an extensive literature review of the
1
companies. In many cases, it appears that the
various evaluation models which can be used to
2
capital cost of these buildings exceeds the
test how much architectural value is inherent in
3
market value as it would be expressed on a
a building project. There is considerable interest
4
balance sheet. These companies invest more in
in this subject internationally, and a number of
5
their buildings than market values justify. Why
studies of the value to companies of investing
6
is this, and how do companies justify this
in architectural design have been conducted.
7
additional expenditure to their key
For example, Doron, Shilling and Sirmans (1992)
8
stakeholders? More generally, how do corporate
demonstrated that office atria, many of which
9
clients measure architectural value and design
offered access to the public, generally resulted
40
value in the cut and thrust of presenting a
in higher market rents. Hough and Kratz (1983)
1
business case to gain capital expenditure to
used hedonic price estimation (a technique to
2
build buildings for their own use? If we can
infer the value of a non-market amenity) to
3
answer this question, we can begin to show
study buildings that had received architectural
4
how and why the value of architectural design
awards and thus commanded a significant
5
and architectural quality matters to these
rental premium that could not be explained by
611
55
Designing Better Buildings
other factors. Vandell and Lane (1989) examined
RARE Headquarters, Twycross
over 100 office buildings and found positive correlation between design quality and market
RARE, the computer games developer, was set
rents, and took tentative steps towards
up by three brothers fifteen years ago.
establishing a grading system for design quality.
Originally, it operated in an old farmhouse and
The Property Council of Australia (1999) found
range in Twycross. For their new headquarters,
clear evidence of a ‘design dividend’ that could
they took the view that their creative success
be identified and to a limited extent measured
stemmed in part from the English rural working
in financial terms. The New Zealand Centre for
environment, and they favoured a traditional
Building Performance has developed a
building similar to a country manor. The Royal
scorecard method to provide a balanced
Fine Art Commission encouraged a modern
assessment of the quality of the building as a
design, and after a RIBA competition and a
whole and of its component parts, against the
false start with one set of architects, Feilden
requirements of a range of users (Loe, 1999).
Clegg were commissioned as designers. The design is based on a traditional farmhouse layout with outbuildings connected
The case studies
by glazed links. It is highly cellular to fulfil the required work environment of teams of two to
Following the literature search, I undertook case
three programmers working in privacy on a
studies of ten major building projects, working
particular game. External and internal security
alongside companies who had either just
requirements are very strict. The building uses
completed a new bespoke building or were in
a mix of shapes and materials – wood, copper,
the process of procuring the design for that
glass, concrete, red brick, and Welsh slate.
building.
There has been an emphasis on sustainability.
6.1 RARE Headquarters, Twycross, Leicestershire, 1999 (architect: Feilden Clegg)
56
Jon Rouse
There is no air conditioning; the building
distribution and management functions in a
111
constitutes a very low energy design and
number of different ways. The original block
2
incorporates water recycling. A significant
was re-clad, and the two are linked by a glazed
3
amount of landscaped open space has been
entrance pavilion that also acts as a gallery for
4
retained for staff recreation.
Dyson products. The external façade is covered
5
by a wave-like roof that at night appears to float
6
above the rest of the building. The interior of
7
the complex has been deliberately styled in a
8
lilac and yellow colour scheme that matches
9
the company’s products. The internal flexibility
10
James Dyson’s career took off in the mid-1990s
of the layout was tempered to a certain extent
1
with the commercial success of the dual
by the security requirements of the company,
2
cyclone vacuum cleaner. Large-scale production
so few outsiders ever see the front areas of
3
started in an old postal depot in Chippenham,
the new building housing the R&D function.
4
which was quickly outgrown. The company
The impact of the building, however, is directed
5
therefore acquired a 7,000 square metre factory
at staff first, visitors and the community
6
on the edge of Malmesbury, that could be
second, and suppliers third. Within the exterior
7
expanded to provide 35,000 square metres of
landscaping there is a strong commitment to
8
accommodation.
public art, including a glass bridge across a
9
Dyson Research and Appliances Heaquarters, Malmesbury
purple pond to the main entrance, the
20
flexibility of space, allowing the organisation to
installation of fibre optic reeds, and a sculpture
1
combine research, development, manufacturing,
collection.
2
The emphasis of the new building is on
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 6.2 Dyson Research and Appliances Heaquarters, Malmesbury, 1998 (architect: Chris Wilkinson)
2 3 4 5
611
57
Designing Better Buildings
6.3 Capital One European Headquarters, Nottingham, 2001 (architect: ORMS)
Capital One European Headquarters, Nottingham
subdivision. Priority was given to the interior working environment, and the creation of a vibrant and flexible workspace for a very young
When Capital One, a company whose business
work force that is intended to be a fun place to
is in credit cards and personal banking, was
work. It has a low energy displacement system,
looking for a base for its European operations,
extensive high performance double glazing, and
Nottingham was chosen mainly because of
external shading.
grant availability. The company occupied a distinctive building on the south side of the city. Rapid growth created the need for a new building on an adjacent site with a connecting
Boots D90E Extension, Nottingham
building through to the existing offices. The new headquarters building is one of the single
The original Boots D90 office building on the
largest office buildings in Nottingham. Concerns
extensive Boots HQ campus in Nottingham was
about market value and disposability meant that
built in the 1950s and was one of the earliest
the company thought long and hard about
UK examples of an open plan office
whether to build a single building or separate
environment. The growth of the company over
lettable buildings. In the end they opted for the
subsequent decades saw different departments
gains in working environment offered by the
spill into separate buildings across Nottingham
larger shell, although it was designed to allow
city centre. The D90E Extension was perceived
58
Jon Rouse
111 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
322 4 5 6 6.4 Boots D90E Extension, Nottingham, 1998 (architect: DEGW)
as a means of consolidating many of the
reception area, to the rear of which are
7
departments back onto a single site, while at
landscaped gardens.
8
the same time stimulating a new corporate
9
culture based on greater creativity, less
30
hierarchy, and more teamwork. A new IT system was introduced at the same time in an
Lloyds Register of Shipping Headquarters, City of London
1 2 3
attempt to increase productivity. The Lloyds Register building is a 38,000 square
4
divided into twenty neighbourhoods, which
metre office comprising 12- and 14-storey
5
themselves contain a mix of work layouts
towers linked by an atrium. It is located on a
6
according to divisional requirements. Each
relatively small foot-plate off Fenchurch Street
7
neighbourhood also has a hub for coordinating
in the City of London. At the insistence of the
8
departmental day-to-day requirements, and the
City, the front of the building is hidden by the
9
whole building is served by a one stop shop.
listed façade of the original Lloyds building,
40
Running through the length of the building is an
which is again linked to the new building by an
1
internal street with different amenities and
atrium. This façade has been described as an
2
informal spaces facing onto it. There are also
‘undistinguished Edwardian building’ and has
3
four atria arranged in the shape of a comb. The
constrained both the building design and the
4
old and new buildings are connected by a
site works. The new building features external
5
central building which also acts as a main
serve cores and lifts, the first attempt at
611
The building comprises three floors
59
Designing Better Buildings
sloping concrete bracing in the UK and various energy-saving measures. There are a number of striking elements about how the Lloyds project was managed. First, once the decision was made to proceed with the Richard Rogers Partnership, the architects were given considerable freedom. However, as a client protection device, the project managers chose the key subcontractors for the project and then novated them to the main contractor, Sir Robert McAlpine. As with a number of other case studies, the building project was used to drive a corporate change programme to modernise working methods.
Jubilee Campus, University of Nottingham The origins of the University of Nottingham Jubilee Campus project were largely speculative, based on the opportunity to acquire 20 hectares of factory land about half a mile from the main University Park campus. It has provided an opportunity to take some of the pressure off the original campus by moving and expanding the key schools of computing, education and business. The campus is mixeduse, comprising teaching buildings, offices, halls of residence and social facilities along the edge
Pearson Education Headquarters, Harlow
of a small man-made lake. The design is
This headquarters building was commissioned
organised as a series of bands: tree line, lake,
by Addison Wesley Longman, part of the
people, buildings, parked cars and then the
Pearson Group, in 1989/90. After a long delay,
external boundaries. In total the campus
caused by shifts in corporate structure and
comprises 23,000 square metres of teaching
policy and partly by a planning delay, the offices
space and 750 residential spaces. An
were finally completed in 1996. The company
international design competition was run to
was trying to balance a need to satisfy
select the architects, which cost the university
requirements of the property investment
£250,000, invested at risk, and was won by
market with a desire to create a space that
Michael Hopkins. There is a strong design
would foster greater communication and
emphasis on environmental sustainability,
creativity in staff, facilitate the increasing use of
assisted by a Thermie grant from the European
IT, be easy to maintain and cheap to run, and
Commission. This is reflected in attention to life
be a pleasure to work in.
cycle costing throughout the procurement and development process.
60
The building is constructed as a mix of five and six storeys, set around one large
6.5 Lloyds Register of Shipping Headquarters, City of London, 2000 (architect: Richard Rogers Partnership)
Jon Rouse
headquarter business centre. BA has used the
111
development opportunity to drive a corporate
2
change programme based around increased
3
creativity, greater informality, less hierarchy,
4
more flexible working and less paper. The
5
complex is built around an internal street
6
sheltered by a continuous glazed roof. A
7
stream flows down the length of the street,
8
before emerging outside and flowing into a
9
large lake overseen by the restaurant facilities.
10
The lake is surrounded by 280 acres of
1
restored parkland accessible by the local
2
community. Six office buildings, constructed
3
on three floors, each face onto the street.
4
They each also overlook their own courtyard.
5
In principle, each could be separately let or
6
sold. The street itself provides many amenities
7
and informal spaces include various cafés, a
8
supermarket and a florist.
9
The individual office buildings reflect the
6.6 Jubilee Campus, University of Nottingham, 1999 (architect: Michael Hopkins and Partners)
20
objectives of the corporate change programme.
1
Most areas have no permanent desks and little
2
filing space. Instead there are touchdown points
322
and hot desks to allow people to plug in
4
computers and telephones for limited periods.
5
There are also quiet areas for more reflective
6
individual work requirements. The Waterside
7
centre cost £200m, and the company estimates
8
central atrium and two smaller atria. The west
that it generates an average £15m per year in
9
and east blocks are separately lettable, and one
savings through increased productivity and
30
of these blocks was let for a time to a major
lower running costs.
1 2
supermarket chain. It is regarded as a very
3
green building with natural ventilation, external solar shades and maximum use of natural light. Assessed under the BREEAM energy scheme,
Selfridges Department Store, Birmingham
4 5 6
the building achieved 20 out of a possible 21 The design is an eye-catching futuristic shape
7
that forms part of the regeneration of the Bull
8
Ring in Birmingham city centre, and is part of a
9
much larger mall development. As a company,
40
Selfridges is in an expansionary phase. Having
1
The BA Waterside building is situated to the
separated from its parent, the Sears Group,
2
west of Heathrow airport. It has provided the
several years ago, it has already opened a new
3
opportunity for BA to bring many of its
store as part of the Trafford Centre in
4
managers and back office staff out of separate
Manchester and is looking at other UK locations
5
outdated offices and into a single purpose-built
for new stores.
611
credits – unequalled at the time of assessment.
BA Waterside, Heathrow
61
Designing Better Buildings
6.7 Pearson Education Headquarters, Harlow, Essex, 1996 (architect: CD Partnership)
Within the Bull Ring mall development,
Hilton Hotel, Heathrow
there were two department store options. Debenhams took one of these, based on the
The original intention was to include the Hilton
developer’s original design. Selfridges took the
Heathrow as an individual case study. However,
other, but with a bespoke design of the shell
it turned out to have been developed by a third
structure. After complex financial negotiations,
party developer, BAA, then leased to Hilton
Selfridges managed the project and carried an
International as hotel operator. Instead I looked
element of risk, taking out a 35-year lease. The
at Hilton policies towards hotel design,
shell structure is carried on the developer’s
development and operation across its recent
books. Future Systems were appointed as
portfolio additions.
architects, working as part of a project team
All Hilton hotel investment options are
that includes external project managers and
appraised on a strict rate of return basis,
specialist consultants.
comparing cost with customer income. Hilton’s
62
Jon Rouse
111 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
322 6.8 BA Waterside, Heathrow, 1998 (architect: Neils Torp)
design focus is on a very standardised form of
schedules, floor-plate shape and size, number
4
interior that maximises income-generating
of meeting rooms, size of health club, size of
5
space while providing the customer with visual
restaurant, and so on. There is limited room for
6
access to as many money-generating
manoeuvre.
7
opportunities as possible. The company is not
8
unduly concerned about external appearance except for signage. The investment priority is
9
Accounting for value
30
always the interior, particularly the reception
1
areas on the basis that first impressions help
Before we talk about architectural value, it is
2
secure repeat visits. The decision to take on
important to go right back to first principles and
3
the Hilton Heathrow was about securing a
get a grip of what we mean by value itself.
4
presence in a key location and a judgement that
There are two main meanings of value: one
5
the architect had created a good internal
relates to use, the other to exchange. This is a
6
environment that would enable Hilton to deliver
crucial distinction when you talk about
7
its first priority – customer service quality. The
companies procuring buildings for their own
8
quality of the external appearance was a
use. We are talking about use or purpose value
9
secondary consideration.
more than exchange value – but that may not
40
be how the formal valuation processes actually
1
make the judgement.
2
In terms of hotels which the Hilton develops itself, only three UK architects are used, based on their experience in hotel design
In terms of accountancy practice, what
3
and particular knowledge of the Hilton’s
we mean by value is of critical importance. This
4
requirements. The architects are given strict
is because companies have got to keep an eye
5
parameters within their brief, including area
on what the value of their asset could be at the
611
63
Designing Better Buildings
end of the building process. The main method
of a building to a company. So we have a
of valuation is what accountants term modified
distinction between the way the accountants
historic cost. It involves a number of constraint
view a valuation problem and how economists,
choices. On the left-hand side of the equation
psychologists, and social scientists view value. Where does the accountants’ system fall
is the idea of use value: net current replacement cost, how much it would cost to
down? It falls down because it has a very strict
replace what you build. What accountants do
concept of prudence, which creates three
here, and this is where things start to get really
problems for us in terms of design value:
blurred and fuzzy, is to use cost as a substitute for value. Cost for worth. For me, these are
•
First of all, design value is intangible to a
two totally different concepts, but in accounting
certain extent. Certain elements may be
there is a blurring of the distinction between
tangible – for example, if you can prove a
them. On the other side of the equation, you
definitive cost saving through a particular
have what might be called a recoverable
energy-saving device; obviously that could
amount, which takes you into exchange value
be taken into account. But the areas I am
again – market value – how much could you get
talking about – corporate identity, branding,
for this building in its existing use, or taking into
goodwill, staff welfare, increased
account alternative uses? Given the proximity
productivity – are intangible; they cannot
and the closeness between the accounting and
directly be attributed to the design in itself.
the surveying professions, these definitions of cost and value are writ large across how
•
The second problem is one of inseparability.
companies go about valuing buildings. What we
The accountants’ system will only take
really need is a much richer definition of value.
account of, and allow calculation of, assets that are separately identified and traded.
If you want to account for the value of architecture to companies, what you actually
But of course, design value cannot be
talk about is value to business. That phrase,
separated out from the building as a fixed
value to business, is actually how accountants
asset.
describe their method of valuation, but it is little
•
And the third problem the accountancy
of the sort, because the replacement cost and
system has is commensurability, which
market value substantially undervalue the
basically means that there are very few
contribution of the asset to the business.
comparators. If you are constructing a
Replacement cost and market value fail to
building which is per se, bespoke, then it is
account for the impact on corporate identity,
very difficult to find comparators that can
the health, well-being and productivity of staff,
be used for strict market evaluation that
staff retention and recruitment potential, even
take into account the benefit of that design
customer loyalty. There are all sorts of issues
to a particular company.
which a building raises in terms of its design value that are not taken into account by either accountancy definition. In their joint study of architectural value
Are new methods needed to account for value?
in South-east Asia, completed in 1992, DEGW and Technobank (1992) identified that there was
The next question is: does this really matter? Is
a composite value – a combination of exchange
this what we should be getting excited about?
value, use value and image value. These
Are financial accounting methods going to make
overlap, and are inseparable; and to try to
any difference to how much decent architecture
separate them will detract from the true value
is really procured by companies? The answer is
64
Jon Rouse
a resounding yes, and there are three main
competence and the attitudes of the staff in
111
reasons why it does matter.
terms of what they provide, as well as the
2
organisation’s identity and its ability to undergo
3
complex debate which has been raging for the
cultural change. Yet none of the structural
4
best part of ten years now between the
capital is included in the company balance
5
investment representatives, like the US
sheet. So architecture finds itself part of the
6
Securities and Exchange Commission, and the
debate, although the debate itself is a lot bigger
7
accountancy bodies that control accounting
than concern about the delivery of architectural
8
standards both nationally and internationally.
value.
9
The first is that there is a huge and
Briefly, the argument is that a substantial
10
The second reason why the limitations
fraction of the value of a firm, perhaps as much
of poor evaluation methods matter is that not
1
as 90 per cent in the case of an organisation
only does bespoke design create intangible
2
like Microsoft, is actually not in normal financial
benefits which might get missed out of the
3
capital, it is not in the bricks and mortar, it is
equation in the accounting process, but also it
4
actually in the intellectual capital of the
creates additional transaction costs which
5
organisation. Intellectual capital can be further
might also get missed out, that flow from
6
subdivided into human capital and structural
bespoke assets, but are also usually present
7
capital, as shown in Figure 6.9.
in specific assets. Asset specificity actually
8
reduces the tangibility of the asset. What do I
9
Because it has been explicitly recognised by
mean by that? It means it is going to be more
20
companies like Skandia, and by organisations
thinly traded because an organisation with a
1
like the US Securities and Exchange
bespoke corporate identity is less likely to be
2
Commission, that architecture spans both of
taken on. There will be fewer purchasers, and
322
these headings. Certainly a building is a fixed
so there will be a depression in its value. The
4
asset in terms of the facilities it provides, but
problem is that traditional investment appraisal
5
there is also considerable intangible value –
techniques, like internal return or net present
6
called structural capital – that supports the
value, do not properly account for all that.
7
Why does that affect architecture?
8 9 30
Total corporate value
1 2 3 Financial capital
Intellectual capital
4 5 6
Human capital
7
Structural capital
8 9 Competence
40
Relationship
1 2 Attitude 6.9 Value distribution tree (after Roos and Roos, 1997)
Organisation
3 4
Intellectual agility
5
Renewal and development
611
65
Designing Better Buildings
The third reason why it matters is more
The research community, particularly in
generic. It is really about the changing decision-
America, has started to play with some of
making context. There is corporate recognition
these devices in relation to value in design,
about environmental responsibility, the benefits
particularly with intangible benefits of design.
of corporate identity, and the retention of staff,
Of those that seem to offer particular promise,
which companies are eager to try and put some
the analytical hierarchy process is a multicriteria
sort of measurable value on. Obviously the
evaluation method. It breaks decision attributes
design of buildings contributes to those issues.
down into a hierarchy of factors and uses
We have seen the emergence of corporate
paired comparisons to estimate relative
design champions. This is particularly relevant
magnitudes (Vargas and Saaty, 1981). The US
to one of my case studies. Vittorio Radice
Real Estate Association has looked at the
arrived at Selfridges and sought to direct the
application of fuzzy logic (Bagnoli and Smith,
whole company towards an ethos of corporate
1998). Contingent valuation is used in cost-
identity, in which you create a retailers’ theatre,
benefit analysis (Layard and Glaister, 1994)
an entertainment space where building,
Let me admit that these three
concession space, colours, layout and so on, all
methods are totally untested in terms of their
contribute to the customer’s experience.
cost, timing, and general practicability, let
A final point is that investors are no
alone their acceptability in this context. We
longer seen as the only stakeholder that has to
are at the start of a long process in terms of
be satisfied; others range from local community
adoption, although a method like fuzzy logic is
through to critical special interests, and there is
now the norm in terms of intelligent machinery.
an interest in satisfying the broader range of
If you have a programmable washing machine,
stakeholders.
it has some sort of fuzzy logic system built into it. If it’s applicable there, why not in terms of intelligent buildings? This does not seem
Alternatives to traditional valuation methods
to be a huge step. But the valuation profession, in this country at least, is not in a state to take on those sorts of alternative measuring
If traditional valuation methods are limiting us in
methods in their professional development
terms of design values, are there alternatives?
training.
The answer is, yes, there are. There are many, and they originate in a variety of other disciplines. The analytical hierarchy process and multicriteria analysis come from the behavioural
What really drove the case study organisations?
sciences and engineering; human capital measurement comes from the human
The most important finding from the case
resources psychology perspective; contingent
studies concerns what actually motivates
valuation comes from the measurement of
corporate design investment. According to
environmental amenities and hedonic pricing is
accounting conventions, exchange value and
a similar welfare economics measurement
replacement cost are the key drivers, so cost-
device; cost-benefit analysis comes from
efficiency and disposable value would be the
economics; then there is fuzzy logic from IT. So
things that companies would give most priority
there are many techniques in other disciplines,
to. Yet in practice, disposability – the ability to
all of which are potentially applicable. Buckley
obtain exchange value – turned out to be the
(1988) and Voogd (1988) provide an introductory
least important criterion for these ten
overview.
organisations.
66
Jon Rouse
In all ten companies there was strong
Design champions are people at the top
111
recognition of the corporate benefits to be
of these organisations saying ‘Yes, architecture
2
gained from architectural investment. There
matters. Yes, we recognise the value, we are
3
was further recognition that these benefits
going to go for a high quality solution, with all
4
represented a mix of tangible and intangible
that means in terms of how we procure,
5
benefits, some of which would fit within a
manage and aftercare this building.’ Particularly
6
traditional quantitative cost-benefit analysis,
in the case of Dyson and RARE, the design
7
others which were more difficult to measure.
champions were at the head of the
8
organisation, and heavily involved in the building
9
the sample of case studies was:
design from procurement to completion.
10
1
Employee satisfaction
prevalent in at least three of the case studies
2
2
Functional quality
was a corporate precedent towards a tradition
3
3
Flexibility of use
of high-quality architecture. Consider the legacy
4
4
Cost efficiency (relationship between capital
of the original Selfridges store on Oxford Street.
5
and life cycle costs)
You have a starting point. And that starting
6
5
Corporate profile
point matters, because if you are going to
7
6
Book value
maintain market credibility what you do next
8
7
Disposability.
obviously counts. The new Selfridges in
9
Birmingham is another grand projet.
20
The ranking of design motivations across
1
The second element that was very
The most important is employee satisfaction.
1
The third issue, and this was
Why? Because human capital is the number
predominant in seven of the ten case
2
one resource which these companies actually
studies, was that for these companies
322
have, and they will do anything to enhance
procuring a building was actually part of a
4
the ability of that human capital to increase
much wider corporate development and/or
5
turnover and profitability. Here is a quotation
change process. The reason Boots or BA built
6
from one of the case study organisations
those buildings in the way they did, when
7
about enhancing the creative excellence of the
they did, was because they wanted to initiate
8
company. ‘It is not that the company does not
a corporate cultural change in their
9
care about end value, but it is secondary.
organisation, and they viewed the building
30
Because this building is not re-lettable to the
as part of that process. Here is a quote from
1
world and its wife, it is wholly and specifically
Boots to illustrate that:
2 3
designed to meet RARE’s working requirements.’ Hilton and Lloyds were the
You compare the cost of this building
4
most concerned about disposability of assets
against market value, it just doesn’t wash
5
and book value.
its face. But we have been doing a great
6
deal of work on corporate processes and
7
investigate was what actually determined
we found we had been operating in silos.
8
corporate policy in architectural investment.
We need to start breaking down barriers.
9
Three main issues emerged from these ten
Hence we have a mega-office structure
40
companies. In descending order of importance
which is rich with informal work spaces –
1
as stated by these companies they are the
where restaurants and cafes and those
2
existence of a design champion in a senior
facilities are brought right into the heart of
3
position, corporate precedent to high profile
the office building and has all the
4
building, and new premises driving (or at least,
departments operating from the same
5
contributing to) corporate development.
building.
611
The secondary question I wanted to
67
Designing Better Buildings
The new Boots building is part of a cultural
high quality buildings. Seven out of ten felt that
change programme to promote cross-functional
the contractors and subcontractors had let them
working, greater staff empowerment, and
down in that respect, which has repercussions
stripping out of hierarchies.
on how they view the construction process.
For Boots, BA, and Pearson, the new
Other causes of the inability to translate design
buildings help to consolidate different parts of
intent into high quality building included
the organisation within an open plan
appointing the wrong architect, being unable to
environment – creating internal streets, atria
work successfully with the architect, and
and other informal spaces to facilitate creative
difficulty with local planning and regulatory
interaction. BA Waterside is billed as a catalyst
bodies.
for change, transforming the way the company does business. In the case of Capital One, the building design flowed directly from a corporate strategy, and a scorecard method was used to
How is architectural quality valued?
test all decisions and subsequent performance to achieve operational excellence.
The next question was how the issue of architectural value was managed within the corporate decision-making process. The first
The barriers to achieving architectural quality
thing I found was some good news, which is that there is wide use of corporate cost-benefit analysis on a sound economic footing. But eight
For all the perceived strengths of the ten
out of ten case study organisations could not
buildings I was looking at, I found in one or two
consider making full use of that process. Where
cases a genuine misunderstanding about
quantification was easily possible using very
architectural value and little recognition of how
simple economic and mathematical techniques,
design quality contributes to customer
the design benefits were incorporated within
perception or customer satisfaction. These ten
that equation. The more intangible design
buildings got built, but that doesn’t mean that
benefits – revolving around issues such as
all ten companies have a full understanding and
corporate identity, company branding, staff
recognition of architectural wealth.
recruitment and retention, and so on, tended to
At least three of the companies were
be treated as qualitative factors. They were
still operating in accordance with strict capital
subjected to sensitivity analysis, but only after
constraints. So, for example, they were not
strict financial investment appraisal had been
engaged in life cycle costing, which obviously
undertaken.
starts to flag up design benefits and
In three cases, encouragingly, there had
architectural benefits. One company was just
been some attempts to actually quantify these
using a strict capital cost basis and internal
benefits, using known methods. BA and the
yield requirements; and, in terms of the costs
Lloyds Register attempted some quantification
and benefits to the company, was not really
of a mix of tangible and intangible corporate
looking beyond the day that the building was
benefits. However, and more disturbingly, in
complete. So there is an education process that
four of the ten cases where I had direct
needs to go on there.
evidence, formal valuation processes of the sort
And for various reasons, even though
which should be used only for financial
these companies have real design intent and
reporting purposes in terms of constructing a
were producing buildings of worth, there were
balance sheet (with all the limitations that I
still difficulties in translating design intent into
have already disclosed), were actually being
68
Jon Rouse
used for decision-making purposes. These
It may seem crude in the way they did it, but
111
distort the investment appraisal. Why? Because
nevertheless the intent was there.
2
How did they link potential efficiencies
they incorporate all the costs of design, in
3
terms of capital cost, but they do not
with the building design, and what did they try
4
incorporate the corresponding benefits that
to capture in their measurement process? In
5
might follow, particularly the intangible benefits,
making the business case, they looked at
6
because of the constraints and restrictions of
potential efficiency savings and associated
7
the formal valuation processes which have their
building drivers, as shown in Table 6.1.
8
Did the companies have to invest
roots in company law, accountants’ standards
9
additional resources to achieve the benefits?
10
In the majority of cases there was a higher
1
capital cost. In the better cases, the tangible
2
design benefits and life cycle savings were
3
used to justify these higher capital costs, even
4
To finish on a more encouraging note, over half
though no explicit measurement of those
5
the companies actually expressed an interest in
benefits had taken place. Sadly, a minority of
6
learning more and utilising other valuation
the cases worked to a strict return on capital
7
methods in terms of future procurement. This
basis, which did not take any account of the
8
was not just politeness – they seem genuinely
extra benefits at all. There is an interesting
9
open to bringing some of these other
quote from Capital One:
20
and surveyors’ practices.
Openness to new methods
1
evaluation methods, drawn from the academic world and from other disciplines, into the
The market value was calculated on the
2
corporate world.
basis of rental value. You have to
322
remember that this is the blackest of all
4
arts. It is at the best rental value in
5
Nottingham assessed against a base of
6
£15–£16 a square foot.
7
The company that did the most in terms of valuation was British Airways, who reported: On a project budget of £200 million we
8
calculated potential savings of £15 million a
9
year. This figure was generated on the basis of tangible and intangible benefits
Conclusion
30 1
having looked at every issue – staff turnover, sick leave, publicity – and we tried
The research shows clearly that companies
2
to put a numerical value on it.
developing properties of high design value for
3 4 5
Table 6.1
6
Efficiency savings and building drivers for BA
7 Efficiencies
Building driver
Travel/time savings
Co-location of key decision-makers
On site training
Less waste on training costs
Flexible offices
Cheaper office change/makeover costs
Productivity gains
New ways of working
Increased revenues
Improved decision-making
Less hierarchical culture
Improved morale
Efficient use of space
Increased number of residents
8 9 40 1 2 3 4 5
611
69
Designing Better Buildings
their own occupation are more concerned with
about the potential changes to formal valuations
the value in use of the building to the business
systems and standards.
than with its disposal value as measured by
Even more worrying, perhaps, is that the
some form of exchange-based market valuation.
place where we thought we had made the
But the added value from design investment is
most progress, through the things like life-cycle
not being measured or incorporated in the
cost analysis, is actually being undermined by
balance sheet. This is because of the
the tight grip of capital constraints. Can we
weaknesses of the two main methods which
adapt and evolve the formal valuation
are used for measurement – replacement cost
processes? Yes we can – and architects and
and market value. As an RICS representative
the RIBA can play a role in this. In accounting
said:
terms, we can actually grasp the opportunity as we are part of a wider intellectual capital
Surveyors don’t like to think outside the
debate. The valuation of intangible costs and
box. The values that are recorded on many
benefits is a suitable area for professional
unoccupied buildings have nothing to do
development among the valuation professions.
with how the market operates. The market
In decision-making terms, we should
valuation method owes more to the tax
stop trying to use formal valuation processes
considerations in which it was first
for purposes for which they were never
conceived than it does with the impact of
intended and which distort. The way to do that
buildings on corporate performance.
is through education, starting with the surveying profession, and also with corporate
Companies investing in quality architecture
clients. Having spent time with professional
recognise that there are benefits to such
groups and with clients, I believe the desired
investment, but do not make any serious
changes are most likely to happen by
attempts to incorporate these benefits within
developing partnership with economists,
the decision-making process that determines
surveyors and accountants. As the RICS
the design and construction approach adopted.
acknowledged:
if you do not attempt quantification, then you risk distorting the decision-making process,
As a profession, we are facing a whole
that determines the design and construction
new set of intangibles, design value being
approach adopted, to the detriment of
only one. Valuers are going to place a
potential investment. There are alternative
premium on particular buildings. Frankly the
measurement tools which we can draw on
surveying profession does not have a clue
from other disciplines – but they are untested
how to measure those values at present.
as yet in this environment. The case study companies are interested in measurement
I think that is encouraging, because it
methods that would enable them to capture
recognises there is a problem, and that we
intangible benefits arising from their
need to develop the tools to solve it. We are at
investment, but are sceptical about the cost,
the beginning of a long but very worthwhile
practicality and external acceptability of using
process.
novel methods. Guardians of the property valuations system, predominantly valuing surveyors and
References
accountants, are sceptical of the worth of attempting to value design benefits within the property value, and are particularly negative
70
Bagnoli, C., and Smith, H., (1998) ‘The theory of fuzzy logic and its application to real estate valuations’, The Journal of Real Estate Research, vol. 16, no. 2, pp. 169–99.
Jon Rouse
Buckley, M. (1988) ‘Multi-criterion evaluation: measures, manipulation and meaning’, Environment and Planning B: Planning and Design, vol. 15, no. 1, pp. 55–64. DEGW and Technobank (1992) Intelligent Buildings in Europe, London: DEGW. Doron, J., Shilling, J. and Sirmans, C. (1992) ‘Do market rents reflect the value of special building features?’, Journal of Real Estate Research, vol. 7, no. 2, pp. 147–55. Hough, D. and Kratz, C. (1983) ‘Can “good” architecture meet the market test?’ Journal of Urban Economics, vol. 14, pp. 40–54. Layard, R. and Glaister, S. (1994) Cost Benefit Analysis, Cambridge: Cambridge University Press. Loe, E. (1999) The Value of Architecture: context and current thinking, London: RIBA. Property Council of Australia (1999) The Design Dividend, Canberra: PCA.
Roos, G. and Roos, J. (1997) ‘Measuring your company’s intellectual performance’, Long Range Planning, vol. 30, no. 3, pp. 413–26. Rouse, J. M. (2000) ‘How do profit generating organisations measure and manage the costs and benefits of architecture and design when investing in properties for their own business use?’ Unpublished MBA thesis, University of Nottingham. Vandell, K. and Lane, J. (1989) ‘The economics of architecture and design: some preliminary findings’, Journal of the American Real Estate and Urban Economics Association, vol. 17, no. 2, pp. 235–60. Vargas, L. and Saaty, T. (1981) ‘Financial and intangible factors in fleet lease or buy decisions’, Industrial Marketing Management, vol. 10, pp. 1–10. Voogd, H. (1988) ‘Multi criterion evaluation: measures, manipulation and meaning, a reply’, Environment and Planning B: Planning and Design, vol. 15, no. 1, pp. 65–72.
111 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
71
Chapter 7
Measuring and improving functionality and performance Terry Wyatt
In the late 1990s, as the millennium ended, the
improvements continuously. However, progress
construction industry signed up to ‘Latham and
to date has been focused on the construction
Egan’. It was a defining moment and
process, and little has been done to address
represented a commitment by the industry to
the underlying issue of Latham and Egan,
make significant performance improvements.
namely customer focus. As a result, there are
Their reports urged the construction industry to
as yet no measures for the performance and
learn from other industries where radical
functionality of buildings compared with what
changes and improvements had been made.
the customer really requires, which is a better,
The advice was to copy from the motor and
affordable product.
aircraft industries, including the adoption of new
Recent announcements in the press
methods such as using a ‘single 3D model’ for
suggest that some constructors have achieved
buildings and ‘object-oriented design’.
better financial performance through ‘better
In its report Rethinking Construction, the
quality’ buildings, although what these better
Construction Task Force (1998) led by Sir John
qualities are is rarely stated. Is it design,
Egan stated: ‘construction too often fails to
materials, construction methods, performance
meet the needs of modern businesses that
(such as comfort, energy use, maintenance
must be competitive in international markets,
needs), adaptability, value or just ‘more bells
and rarely provides best value for clients and
and whistles’? In housing, it often turns out to
taxpayers’.
be a case of moving upmarket, by producing
Some improvements have been made
fewer, more expensive homes. This hardly
during the past three or four years. There are
represents progress on construction industry
now integrated ‘Project Databases’ with better
performance improvement.
procurement through management of the
Better quality is undeniably required of
supply chain. Key Performance Indicators (KPIs)
the buildings delivered by the construction
have been prepared to assess and monitor
industry and, in housing at least, DTLR and
72
Terry Wyatt
CABE have jointly launched Better Places to
111
MOD Abbey Wood
Live, a guide promoting higher standards in the
2
design of housing developments. Several
Numerous studies of the relative importance to
3
housing associations are starting to put the
users of various aspects of building
4
recommendations into practice. Yet it is an
performance have repeatedly shown lighting,
5
indictment of the industry that the new Part ‘L’
ventilation and thermal control heading the lists.
6
of the Building Regulations, amending the
In this case study, lighting performance is
7
energy efficiency provisions, is at all necessary.
considered in terms of use of daylight,
8
It is also a comment on the work of designers
luminaire design, disposition for flexible use of
9
that the document has had to be so prescriptive.
space, and lighting control.
10
So what constitutes better quality?
The objective was to provide high quality
1
Performance and functionality of buildings are
lighting of workplaces at the lowest operating
2
best studied by reference to actual rather than
cost within a capped budget. The proposed
3
theoretical buildings. Exemplars can
‘intelligent’ lighting control system ‘sees’ when
4
demonstrate how to go about assessing
and how much lighting is needed to
5
aspects of building performance. Three case
supplement daylight. The system allows ‘trade
6
study buildings illustrate the delivery of
free’ reconfiguring of workplace furniture and
7
particular aspects of performance in terms of
partitioning throughout the buildings based on a
8
their value to the users:
1500 mm grid.
9
1
the proposed system was assessed as follows:
20
During the design phase, the value of The MOD Abbey Wood development – showing care over indoor climate design for user performance and consideration of
2 •
amount for the 15,000 fittings required was
performance and cutting costs.
£375,000. •
each case, the customer is given information about what the building being designed for them
5 6
introduction of the Climate Change Levy,
measurement’.
we should begin to focus on the customer. In
4
on energy costs. This was before the
‘perilous square metre of net floor area
issues, they serve to trigger ideas about how
3
representing a saving of £45,000 per year
assessments that think beyond the
7
which would have added a further 15 per
8
cent saving. •
30 2
cent reduction in energy usage,
the climate change agenda, and
9 1
Operational costs for the system were estimated at the time to show a 15 per
performance, driven by the need to address
only, or necessarily the most important design
8
extra cost to £25 per fitting. The total
studies aimed at improving overall business
While these case studies do not illustrate the
7
could be reduced by £10, bringing the net
performance indicators used in investment
5 6
with intelligent luminaires this extra cost
over managing a business with
business emissions basis of building
4
Since no switches or wiring are required
Bristol and West plc HQ – showing care
BP Sunbury redevelopment – showing a
322
luminaires was estimated at £35 per fitting.
quality of life.
3
The extra capital cost of a lighting management system using ‘intelligent’
‘travel to work’ emissions as this relates to 2
1
The flexibility and adaptability of the system due to ‘trade free’ reconfiguring produced
9 40 1
an additional saving on churn, that is, the
2
movement and relocation of workplaces.
3
This was estimated at £24,000 per year.
4
will deliver – something we take for granted
On this basis, the simple ‘payback value’ for
5
with car, aircraft or computer manufacturers.
the system was reported as being between five
611
73
Designing Better Buildings
7.1 MOD Abbey Wood Offices (architect: Percy Thomas Partnership)
and seven years. In practice, the outcome has
16 Watts/m2, the average running load is
been considerably better.
now under 8 W/m2.
•
•
First, the actual extra cost of a luminaire
Thus the actual saving of energy costs is
was £25 which meant the net extra cost
£156,000 per year (with Climate Change Levy
over a conventional fitting is actually £15
this is now £170,000 per year) and, with the
or £225,000 for the total installation.
churn saving, the simple payback valuation is
Second, operational costs measured over
about one year.
the first two years of full use of the
74
Ventilation and thermal control
building have shown that, instead of
performance in this case study were considered
an anticipated installed lighting load of
in terms of:
Terry Wyatt
–
enabling natural use of outdoor air
–
whenever it is beneficial to do so –
design of system plant and air distribution
–
disposition of outlets and extracts for –
flexible use of space –
–
system control.
displacement ventilation facilities operable
111
in ‘mixed mode’ and with ‘heat recovery’
2
cooling and dehumidification of system
3
supply air when needed in high summer
4
active static cooling by chilled panels where
5
necessary to offset heat from user
6
equipment
7 8
The design approach for MOD Abbey Wood was given the acronym AIDA – An Incremental
Installations are equipped with system controls
9
Design Approach – since it offered the best
that adjust to meet prevailing requirements. As
10
means of achieving the design objective. This
with the lighting system, the air supply and
1
was to provide the highest quality of indoor air
thermal control facilities are disposed and
2
and thermal control for optimal user
installed to allow trade free reconfiguring of
3
performance. As with the lighting system, it
workplace furniture and partitioning throughout
4
had to be achieved at the lowest operating
the buildings on a 1500 mm grid.
5 6
The initial ‘basic stage’ (Figure 7.2) has
cost, within a capped budget whilst meeting targets for emissions performance. The AIDA
opening windows and perimeter heating for
7
approach ensures items are only added to the
ventilation and thermal control. The windows
8
design when they represent value in what they
have glare control, and the heating is adjusted
9
produce in terms of performance and use. This
centrally by reference to outdoor air
20
avoids the situation where items might be
temperature and locally by thermostatic
1
included in the design regardless of need or
valves. The structural mass is exposed at
2
with insufficient care to the needs of the user.
soffit for heat exchange by radiation with
322
occupants. The façade has high levels of
4
thermal insulation.
5
The first stage of AIDA begins with natural ventilation and perimeter heating which
In the case of MOD Abbey Wood, these
is then incrementally supplemented, to meet the needs of the user. The increments are:
6 7
basic stage facilities are appropriate for lightly
8 9
Basic: Window ventilation Glare control Façade mass S&W
30 1
Perimeter heating
2
Exposted sofitt
3 4
Solar control S, E & W
5 6
Glare control
7 8
Openable window if desired
9 40
Static heating
1 2 3
7.2 ’Basic Stage’ Facilities; perimeter heating
Occupied depth 5 metres
4
Applicable to: Cellular single offices, with negligible equipment – north façade is best
5
611
75
Designing Better Buildings
occupied offices to a maximum depth of 5 m
incorporating heat recovery. The windows have
with negligible heat gains from equipment and
solar shading control by inter-pane blinds.
having a northerly aspect.
Façades having southerly aspects are of high
The ‘first increment’ (Figure 7.3) of increased facilities has the basic stage facilities
mass masonry construction, and are also of high thermal insulation. These first increment stage facilities
augmented with a simple displacement ventilation system by mechanical plant
are appropriate for normally occupied offices
First increment:
Displacement ventilation External (or interpane) full solar control Glare control Perimeter heating Exposed sofitt
Façade mass S&W
Used a
Solar control S, E & W Openable window if desired
i r e x tract
Static heating Displacement outdoor air supply
Applicable to: Single or multiple workspaces, of normal population, with little equipment in use
7.3 ’First Increment Stage’ facilities: displacement ventilation
Second increment: Displacement ventilation
Summertime cooling/dehumidifying External (or interpane) full solar control Glare control Perimeter heating Exposed sofitt
Façade mass S&W
Used a
Solar control S, E & W Openable window if desired
i r e x tract
Static heating
Displacement outdoor air supply cooled/dehumidified to 19°C 10g/kg
Applicable to: Single or multiple workspaces, of heavier population, with light equipment in use
76
7.4 ’Second Increment Stage’ facilities: summertime cooling/ dehumidification
Terry Wyatt
with some equipment heat gains on all
panels applied to the lighting/acoustic units of
111
elevation aspects. The ‘second increment’ of
previous stages.
2
These final increment stage facilities are
increased facilities has the basic stage
3
facilities augmented with the simple
appropriate for those areas of the building
4
displacement ventilation system by
having a commensurate need arising from
5
mechanical plant incorporating heat recovery
equipment loads and a demand for closer
6
of the first increment (Figure 7.4). The
control of thermal conditions.
7 8
Why are the various increments so
ventilation system is additionally equipped with mechanical cooling to maintain the system
important in terms of performance of people? A
9
supply air temperature to 19°C and
dynamic thermal analysis of a model of the
10
dehumidified to 10 g/kg in peak summer when
building was prepared in order to determine the
1
the outdoor air exceeds those conditions.
amounts of time during working hours that
2
Windows, solar control and façades are as the
indoor temperatures exceeding a series of
3
first increment stage. These second increment
degrees would occur (Figure 7.6). The original
4
stage facilities are appropriate for heavier
building model, comprising the basic stage
5
population and higher equipment loads on all
facilities, was shown to result in indoor tempera-
6
elevation aspects.
tures that would exceed 24–26°C for most of the
7
time between April and November. For some 50
8
facilities has the basic stage facilities,
per cent of the period May to October, the
9
augmented with the simple displacement
indoor temperature would exceed 27.5°C. When
20
ventilation system equipped with mechanical
indoor temperatures exceed 26°C, everyone
1
cooling and dehumidification (Figure 7.5).
complains and performance drops markedly.
2
The ‘final increment’ of increased
322
Windows, solar control and façades are as the
The building model was then given
first increment stage. In addition there is active
additional facilities incrementally until the indoor
4
static cooling consisting of chilled beams at
temperatures were reduced to less than 10 per
5
sun-side perimeters and suspended chilled
cent above 27.5°C to occur from July to
6 7
Façade mass S&W
Third increment: Displacement ventilation Summertime dehumidification
8
Active static cooling
30
External (or interpane) full solar control Glare control Perimeter heating Exposed sofitt
1
9
2 3 4
Used a
Solar control S, E & W
5 i r e x tract
6
Static cooling
7 8
Openable window if desired
9 Static heating
40 1 2
Displacement outdoor air supply cooled/dehumidified to 19°0C 10 g/kg 7.5 ’Final Increment Stage’ Facilities: active static cooling
3 4
Applicable to: All workspaces which have a commensurate requirement
5
611
77
Designing Better Buildings
September, and less than 25 per cent above
£50 per working hour at an ideal working
24–26°C during the April to October period.
temperature – was compared to the capital cost of each incremental facility. Using the dynamic
This ‘2.5 per cent climate’, a description used by DEGW in their original design briefing
thermal analysis of the building model, the
report for the project, means that indoor
negative impact of indoor temperatures upon
temperatures should only be beyond generally
this production rate could be calculated. The
acceptable conditions for no more than 2.5 per
value was computed by reference to the length
cent of the working year. (Roughly 2.5 per cent
of time that the various temperatures would
of 2000 equals 50 hours a year.)
prevail and then amortised across the population of 5,000 workers in the buildings. By this means,
Research shows that worker performance is affected by the temperature at
installation of just the basic stage facilities was
the workplace. Figure 7.7 is a graph of the
estimated to cost £1.6m with an associated cost
relationship between workplace temperature
of lost production calculated at £4.5m per year. The capital cost of the first increment
and worker performance, based on original
stage – providing simple displacement
findings by Wyon (1996).
ventilation – was estimated at £2.6m. The cost
A computed cost of production lost – calculated by giving worker performance a
of lost production was now calculated to be
monetary value based upon a production rate of
£2.8m per year. Thus the value of installing this
MOD Abbey Wood Original workplace
Improved workplace
100 90
Percentage of work time month
80 70 60 50 40 30 20 10
Temp > 26.0 deg. C
Temp > 25.0 deg. C
Frequency of indoor air temperatures
78
DEC
OCT
Temp > 24.0 deg. C
NOV
SEPT
AUG
JUL
JUN
MAY
APR
MAR
FEB
JAN
DEC
NOV
OCT
AUG
Temp > 27.5 deg. C
SEPT
JUL
JUN
MAY
APR
MAR
FEB
JAN
0
7.6 Predicted indoor temperatures
Terry Wyatt
particular increment was a reduced cost of lost
value of this increment to be a reduction in the
111
production of £1.7m per year (that is, £4.5m
cost of lost production of £1.1m per year
2
minus £2.8m).
(£1.2m minus £0.1m).
3 4
Since the budgets for the development
Even after the addition of this facility, the model showed that there were still too many
were capped and the value of this increment
5
places where the indoor climate was too hot
was significantly less than previous
6
and humid. The capital cost of the second
improvements compared to its cost, the static
7
increment stage – providing summertime
cooling increment was restricted to specific
8
cooling and dehumidification of displacement
areas having special need arising from abnormal
9
ventilation supply air – was estimated at £1m.
equipment loads or close temperature control
10
The cost of lost production was computed at
requirements. This turned out to be less than 8
1
£1.2m per year. The value of this increment
per cent of the whole development.
2 3
Turning now to ventilation; the amount
was a further reduction in the cost of lost production of £1.6m per year (that is, £2.8m
of outdoor air to be provided by the
4
minus £1.2m).
displacement ventilation facility was determined
5
by reference to the achievement of a healthy
6
extremely good value for money, yielding
high quality of indoor air throughout the
7
significant benefits for an investment of £1m of
buildings. The influence of infection risk was
8
cooling. As a result, it was decided to install
one of the most important factors taken into
9
this facility in the majority of the building. The
account. A development of the Wells-Riley
20
capital cost of the final increment stage –
equation was used which led to the provision
1
providing active static cooling – was estimated
of 15–20 litres a second of outdoor air for each
2
at £3.8m. The cost of lost production following
occupant. That amount was deemed to be
322
the provision of this facility was computed at
sufficient to halve the normal infection rate,
4
less than £100,000 per year. This showed the
which would very significantly cut production
5
This particular increment represented
6 7 MOD Abbey Wood
8
100
0
9
In the pink 95
2.5
90
5
85
7.5
30
80
10
75
12.5
70
15
65
17.5
60
20
55
22.5
Cost of lost production £/Hr per worker @ £50/hr production rate
Worker efficiency % performance
1 2 3 4 5 6 7 8 9 40 1 2 7.7 Relationship between productivity and indoor temperature
50
3 4
25 15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
5
30
Indoor temperature
611
79
Designing Better Buildings
losses due to absenteeism from respiratory
justification for the selection of MOD Abbey
infection. Actual monetary value was not
Wood for the award ‘Green Building of the Year’.
assessed as the Wells-Riley equation has yet to be validated. An important feature to consider when
Bristol and West headquarters
looking at the performance of buildings is travel to work emissions. Travel to work emissions
The case of Bristol and West headquarters
are a significant proportion of total UK
shows care over managing a business and
emissions and cutting them is of equal
demonstrates how to use performance
importance, especially as present trends show
indicators as part of an overall investment
them to be increasing.
study. The brief was:
Consideration of the potential energy use and thereby emissions performance of the
To examine the workplace occupation cost
Abbey Wood project was not restricted to just
savings that could accrue by moving from a
running the buildings. The travel to work
number of existing buildings of variable
emissions were also assessed and provisions
specification and in various locations to
made for encouraging cycling and the use of
one, purpose-designed building
public transport. Facilities were provided such
incorporating the latest design concepts
as cycle paths with associated secure cycle
and technologies.
parks, lockers and showers. Bus services were introduced and a direct covered way was built
The factors considered in the study show that
to a new railway station, developed from an
the combined cost savings which could accrue
existing halt. In the event, what was once an
amount to some £6.5m per year.
out-of-town development now has a new town
The factors were:
emerging around it as many other large businesses have located nearby.
–
Fragmentation
–
Temperature
life and personal productivity. On average, we
–
Air quality
spend between 8 and 10 per cent of our lives
–
Churn
on getting to work, making it a doubly
–
Energy
important concern of a building’s performance
–
Maintenance.
Travel to work also impacts on quality of
in meeting its users’ needs. In 1998, the journal HAC asked: ‘How can MOD Abbey Wood be “Green Building of the Year” when half the
Fragmentation
occupants drive to it?’ Studies prompted by this question are shown in Table 7.1. These figures give further
Staff were dispersed in several buildings which were more than thirty years old. Locations,
Table 7.1 Carbon dioxide emissions arising from occupant travel to work Occupant travel to work carbon dioxide emissions
CO2/m2 per year
MOD Abbey Wood
100 kg
Hoare Lea London office (surprisingly)
119kg
BRE ‘New Office of the Future’ Watford
145kg
Hoare Lea Aztec west office
150kg
80
Terry Wyatt
shapes, sizes and systems of the buildings all
causes, could not be expected to better that of
111
resulted in inefficiencies, duplication waste and
other organisations. Various Government
2
discomfort. Similar studies by other companies
agencies and the World Health Organisation
3
such as BA were examined. The conclusion
have investigated this problem and
4
was that improvements to productivity from
subsequently quantified its likely extent.
5
Referencing published data from studies
6
the equivalent of £5,000 per person per year. In
by BT, National Panasonic and others, a cost of
7
the case of Bristol and West, 850 staff were
£8.33 per square metre a year was adjudged to
8
involved which, on that basis, would amount to
be the minimum cost to an organisation of
9
an annual cost saving of £4.25m.
avoidable absenteeism due to respiratory
10
problems. When this calculation was applied to
1
the 12,000 m2 involved in the Bristol and West
2
project, it amounted to an annual cost of
3
£100,000. This, however, is a very conservative
4
A survey of existing premises identified that
estimate. It represents only seven days
5
Bristol and West buildings, occupied by some
absence for respiratory reasons of 15 per cent
6
620 of the firm’s staff, were not able to cope
of the staff during a year. The true figure would
7
with the equipment heat outputs of today’s
be several times larger even though not all of it
8
workplaces. They showed poor thermal
can be saved in a new building, however good
9
performance, with inadequate solar shading and
its indoor air quality. Staff can aquire infection
20
insufficient means of ventilation to help cool or
elsewhere, for example. Investigations into
1
give good indoor air quality. The strong
indoor air quality, and its relationship to
2
correlation between indoor climate and
discomfort and disease, are current topics
322
productivity of staff in the workplace showed
worldwide. As a result, studies should soon
4
that the 620 staff in buildings that were not
yield better data on this issue.
5
centralising staff and facilities could amount to
Temperature
designed to cope with the occupancy and equipment they now housed, could not be
6 7
Churn
expected to be performing at their best over a significant fraction of the year.
8 Previous similar studies notably by BT, National
9
Panasonic, Microsoft and Alliance & Leicester,
30
premises, and the results applied in dynamic
have shown that churn (the movement and
1
models of the buildings to assess the annual
relocation of workplaces in a building) is
2
effect on performance of the occupying staff.
achievable trade free at a cost no more than
3
They showed that over-warm conditions
£300 per person. In the type of inflexible
4
prevailed for some 25 per cent of the work
building currently occupied by many Bristol and
5
time and the minimum cost of lost production
West staff, the cost is some £3,000 per person.
6
would amount to £1,000 per person per year.
Many physical items and systems are involved
7
For the 620 staff involved, this made the annual
in churn over and above the positions of the
8
cost £620,000.
people involved. These include, for example,
9
carpet and flooring, ceilings, partitioning,
40
switches, control sensors, electrical power,
1
lighting and ventilation. The churn rate for
2
Bristol and West is conservatively estimated at
3
The correlation between a ‘sick building’ and its
60 per cent with 700 staff involved in regular
4
indoor air quality showed that the absence and
churn. The annual cost saving in an adaptable
5
loss of performance of staff, from respiratory
building would be £1.134m.
611
Measurements were taken in the
Air quality
81
Designing Better Buildings
‘auto rest’ switching alone saved 100 watts per
Energy use
unit. The further annual energy cost saving on Examination of the bills for the existing
these items amounted to £80,000.
buildings showed them to be inefficient energy users, averaging £15 per square metre for HVAC systems. Designs for a new building
Maintenance of systems
were modelled, and two alternative systems of indoor climate control were incorporated for
HVAC maintenance in the existing buildings
consideration. The first was a traditional fan-coil
cost £15/m2 a year and costs for lighting and
unit (FCU) system with perimeter heating. The
electrics were estimated at £3/m2 a year.
alternative proposed was a displacement
Quotations were obtained from maintenance
ventilation system with static cooling and
contractors for provision of a detailed
heating (DVSCH).
maintenance service in the new building design.
Computer runs of the dynamic models
The quotations showed that maintenance of the
of the two systems showed that an FCU
HVAC systems in a new building would cost
system would have an annual energy cost of £7
£9.5/m2 for the FCU systems and £2.75/m2 for
per square metre. The comparable cost for a
DVSCH. Thus, annual cost savings on HVAC
DVSCH would be £5 per square metre. Applied
systems in a new building would amount to
to a new 12,000 m building, the
£66,000 for an FCU system and £156,000 for
commensurate annual cost savings over the
DVSCH. Similarly, maintenance quotations for
existing buildings systems would be £96,000
the proposed lighting/electrics installation
for the FCU and £120,000 for the DVSCH.
showed an annual cost saving of £20,000.
2
Further cost savings on electricity use were identified for the lighting system and new desktop PCs. Cost savings of 50 per cent were
Summary
achieved by using a 16 watts/m2 lighting system and intelligent luminaires. The
When all the performance indicated cost
installation of PCs with LCD flat screens and
savings for a new building were brought together, they amounted to some £6.5m a year (Table 7.2). It is surely appropriate when studying performances to reflect that £6.5m equates to £8,000 per employee and represents 40 per cent of the average payroll costs. It is
Table 7.2 Summary of benefits at Bristol and West headquarters
7.8 Bristol and West Headquarters (architect: Chapman Taylor)
82
Factors considered
£
Fragmentation avoidance
4,250,000
Temperature regulation
620,000
Indoor air quality
100,000
Churn
1,134,000
Energy use*
220,000
Systems maintenance
176,000
Terry Wyatt
also appropriate to compare this management
basis of ‘business emissions’. Of concern to
111
decision – to go ahead with a new building in
everyone today and thereby of great importance
2
order to save the equivalent of 40 per cent of
to building owners – and so a significant
3
the payroll costs – with today’s all too common
message to designers and the construction
4
decision simply to dismiss staff.
industry – is the Eco-Factor performance of a
5
building. A primary element of that factor is the
6
decisions were made including locating the new
climate change emissions implications of the
7
building in the centre of Bristol, close to the
building in operation. These can be quantified in
8
railway station. This results in reduced travel to
terms of the building’s progress towards
9
work emissions, improved quality of life and an
achieving a ‘climate or carbon neutral’ status
10
enhanced corporate image. Workplace buildings
which requires at least a 60 per cent cut from
1
are a vital tool of commerce and industry and
today’s emissions.
2
In addition, further quality management
their performance is crucial to business success.
BP Sunbury
3
In the case of BP Sunbury, the new buildings can be compared with those they are
4
replacing in terms of their climate or carbon
5 6
neutral performance. The existing buildings produce 150kg CO2/m2 pa. However, according
The BP Sunbury buildings demonstrate how a
to BREEAM, the new buildings produce 65kg
building’s performance can be assessed on the
CO2/m2 pa. Hoare Lea’s own assessment
7 8 9 20 1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 7.9 BP Sunbury (architect: Broadway Malyan)
4 5
611
83
Designing Better Buildings
from computer modelling suggest this figure 2
bring a better than 5 per cent productivity
will probably be closer to 75kg CO2/m pa. The
increase which would equate to cutting CO2
CO2 emissions reduction is 75kg CO2/m2 pa
emissions by some 14,000 tonnes per year for
or 50 per cent.
the site – an 80 per cent cut from previous
But can a comparison based on square metres ever be a true measure of business
emissions. BP are committed to cut emissions by
emissions? It is surely more appropriate to
40 per cent for every business unit, worldwide,
consider the people producing for the business
by 2010. The businesses based at Sunbury are
and the amount of emissions each individual
cutting 14 kT CO2 per year (or 80 per cent of
generates in making that amount of production?
their existing emissions). Since BP operates an
Looking again at BP Sunbury, the buildings
internal emissions trading system which is
being replaced housed 2,200 people in
currently costed at $20/tonne CO2 , each
2
60,000 m , so the emission per person was
business unit at Sunbury, after delivering their
some 4 tonnes carbon dioxide per year. The
required 40 per cent emissions cut, has
new buildings will house 4,000 people in
residual savings of 7kT CO2 per year to trade.
60,000 m2, which means the emission per
On the internal Carbon Offset Trading Market,
person will be 1 tonne of carbon dioxide per
this is worth $140,000 per year plus the value
year. Thus, moving to the new buildings will
of the energy saving which amounts to
cut CO2 emissions by 3 tonnes per person per
$2,600,000 (@ $185 per tonne). The business
year. This is equal to a 75 per cent cut – rather
unit is therefore saving $2,740,000 per year or
than the 50 per cent cut based solely on
around £1,850,000.
square metres. Further progress towards carbon neutral
BP Sunbury is an ongoing development, which enables progressive, and incremental,
status at BP Sunbury is shown by other
improvements to be implemented with each
features. A BP-sponsored bus route with a
new building. Operational trials are also carried
service from the local rail station has led to a
out on preceding buildings to ensure they
5 per cent cut in travel to work emissions.
perform as was expected and to test further
The introduction of a nine-day fortnight has
possible improvements. BP Sunbury is
led to a 10 per cent cut, and the introduction
undoubtedly a growing success story in terms
of BP Hives (Highly Interactive Visual
of business emissions and building
Environment Suites) video conferencing units
performance: productivity is up by more than
are saving 125 air miles per person per year.
5 per cent; carbon dioxide emissions have
In total, the carbon dioxide emissions cut for
been cut by 80 per cent; and energy costs are
site-based business equals 3.3 tonnes per
down by more than $2.74m per year.
person per year which, when multiplied by the 4,000 head count, equates to 13,200 tonnes per year.
Conclusion
But is head count an appropriate measure of business performance? Surely
The important question raised by these three
productivity is a more important factor? The
case studies is, why are there no Key
new Sunbury buildings give greater than
Performance Indicators related to building
16 l/s of outdoor air per person and up to
performance? Being in a position to give
70W/m2 of incidental cooling. It provides a
customers information about how the building
top quality indoor climate. This will certainly
designed for them will perform is long overdue.
84
Terry Wyatt
If procedures such as those described in this
111
References
2
chapter were employed as standard practice, surely it would go some way to enabling the construction industry to deliver the performance improvements that are called for and so evidently needed?
CABE and DTLR (2001) By Design – better places to live, London: Thomas Telford, Construction Task Force (1998) Rethinking Construction: the report of the Construction Task Force, London: DETR. Wyon, D. (1996) ‘Indoor environmental effects on productivity’, Proceedings of IAQ ‘96, Baltimore, MD.
3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
85
Chapter 8
Design quality in new schools Richard Feilden
Entering a well-designed and well-run primary
lives of about 20 per cent of the population,
school is one of life’s more pleasurable
they are workplaces for over 500,000 people
experiences. The buildings and their design
and they are visited regularly by many more.
form a backdrop inhabited by pupils and staff to
The school is the place where children spend
provide a child-centred environment which
most of their waking hours apart from home,
ensures a sense of security whatever
and it is the most significant contact that they
uncertainties may exist in lives beyond. If the
will have in their lives with provisions made by
primary school is a child’s first step into a wider
the state. Relatively few, however, have any
society, the move to secondary school will be
real architectural merit.
no less significant in his or her life. Inevitably
Designing schools is not easy. Budgets
there will be a different scale and a very
are almost invariably constrained and an
different environment, going from the security
apparently simple set of user requirements can
of the class-based junior school into a larger
pose difficult issues for designers, particularly
world where corridors and toilets can become
as educational requirements become more
threatening places. In both environments the
sophisticated. Discussion about the design of
architecture of the school can be shown to be
schools is currently much needed in Britain,
highly significant, but a variety of factors have
because the country is now in the early stages
conspired so that many of our schools fall short
of a great schools building campaign that will
of the standards that we might reasonably
see the reconstruction of a significant
expect.
proportion of our school stock. Recently the
In Britain there are currently about
discussion about this reconstruction has tended
24,000 schools in the state sector and
to focus on the means of procurement for new
approximately 2,000 more in the private sector.
projects, which is frequently the controversial
These are buildings of huge significance in the
Private Finance Initiative (PFI). In the very
86
Richard Feilden
complex process issues that PFI raises it is
Professor Brian Edwards is investigating the
111
easy for the value of design quality to be
performance of ‘green’ schools compared with
2
sidelined by commercial and legal
similar schools that do not have these features.
3
considerations, and there is a growing
Early results imply positive correlation between
4
determination that this should not be allowed to
green features and pupil performance,
5
happen. Debate about the importance of design
particularly at the primary level, although
6
is gathering momentum. Schools for the Future,
caution is essential in interpreting the data
7
published by the Department for Education and
since it is difficult to ensure comparability
8
Skills as Building Bulletin 95 (DfES, 2002) is
among the schools being investigated for
9
essential reading.
factors such as pupil intake and staff capability.
10
Both this research and that undertaken by Price
1
redress the balance by exploring why well-
Waterhouse Coopers (2001) on behalf of the
2
designed schools matter and how they may be
DfES show improved staff morale and retention
3
achieved. It explores the history of design
in better facilities.
4
This chapter is a further attempt to
ambitions for schools, and current views on
5
The research is ammunition for those
ways in which the school estate can be
arguing for expenditure on improving facilities.
6
improved as it is progressively rebuilt.
But it does not in itself provide evidence that
7
well-designed new buildings provide better
8
academic results than poorly designed new
9
buildings. The best school designs should offer
20
genuine value for money, whether this be
1
The value of well-designed schools
through improved functionality, improved
2
Before embarking on the main discussion, it is
performance of pupils or other issues such as
322
worth commenting on the significance of school
improved recruitment and retention of staff. As
4
design as an area for serious architecture. From
new schools come on stream it should be
5
the sheer numbers of people who are affected
possible to test their performance and explore
6
by school buildings, their importance will be
the value for money issue further, but this will
7
clear. Establishing a quantifiable comparison
take some time. Considerable investment is
8
between a well designed and a poorly designed
currently being made in the development of a
9
school is, however, difficult – buildings have
system of Design Quality Indicators, described
30
been described as a ‘scientific nightmare’ and
in Chapters 15–17, which are intended to
1
many different factors can distort the picture
ensure design quality remains a focus
2
and need to be adjusted to obtain meaningful
throughout the design process. In the
3
correlations.
meantime we should not ignore common sense
4
or a very simple measure proposed by the
5
undertaken, mostly in the USA, but increasingly
former Director of Estates from Sunderland
6
in Britain, with their findings being collated by
University when he said: ‘a well-designed
7
the Commission for Architecture and the Built
building exceeds expectations, a poorly
8
Environment (CABE, 2002). Positive correlations
designed one falls short of them’.
9
Gradually, research studies are being
are claimed between the attributes of the
40
It is also possible to argue that the
building and pupils’ examination results, and
quality of accommodation that we provide for
1
between quality of daylighting and progress in
different activities indicates how much we
2
reading and maths; improvements of between
value those activities. Looking at many British
3
20 and 26 per cent going from the worst daylit
schools now one might confidently argue that
4
school to the best are reported (Heschong
we value our shopping and leisure activities
5
Mahone Group, 1999). In Britain a team led by
more highly than our children’s education. While
611
87
Designing Better Buildings
many universities achieve standards of quality
believed that ‘education was inseparable from
that match or exceed their surrounding areas,
the environment’ and it is no surprise to find
this is often not the case with schools or
that his authority was one of the great
colleges of further education. One objective of
commissioners during his period of tenure.
the school building programme that is now
From an earlier period we still have a
under way should be to reverse this position.
legacy of Victorian school buildings arising from
The role of careful and skilful design in ensuring
the realisation that widely distributed education
not only fitness for purpose, but also civic
was a requirement for a modern and
quality and lifting of the spirits, will continue to
technological society. These buildings were
be debated. But even if there may be some
based very largely around the classroom
additional short-term cost associated with good
designed for ‘chalk and talk’ and teaching areas
design, this will pale into complete
accounted for a high proportion of floor space.
insignificance over the lifetime of a school and
The fact that some of these buildings are still in
thus the value of quality will be clear.
use after more than a hundred years suggests both that the class-based model is still at the heart of our schools, and that they were
A brief history of school design and its legacy
durably built. They are also of interest environmentally since they were constructed at a time when natural light was virtually essential
Progressive architecture and progressive
for operation, as was natural ventilation. Primary
thinking in educational terms are frequently
schools were typically lofty single-storied
found hand in hand. John Newsom, Chief
structures with tall windows so that light
Education Officer of Hertfordshire in the 1950s,
reached deep into the space.
8.1 Bathampton School
88
Richard Feilden
ceiling heights. In the 1930s Henry Morris,
111
significant number of ‘triple decker’ secondary
Chief Education Officer of Cambridge County
2
schools where a different arrangement was
Council, commissioned the pioneering Village
3
required. These buildings had classrooms with a
Colleges which were an early manifestation of
4
typical ceiling height approaching four metres
the recurring idea of community schools
5
and central corridors were lit by borrowed light
intended to ‘touch every side of the life of the
6
from the classroom, usually with opening lights
inhabitants’. The last of these colleges
7
to permit cross-ventilation.
(1938–1940) was designed by Maxwell Fry, the
8
In urban areas it is still possible to find a
early British modernist. Complete with flat roof
9
has meant that they are quite often more
and generous glazing offering quite new
10
robust than modern alternatives. However, their
architectural messages, this was education as a
1
basic configuration and the lack of flexibility that
progressive and inclusive activity, a fundamental
2
goes with load bearing construction and ageing
element of life in the community.
3
The quality of specification of finishes
services are beginning to render them redundant. In particular modern teaching
was opened every day – a truly extraordinary
5
requires more space in the classroom. This
achievement in logistical terms although it is
6
point is illustrated by current moves to revise
not one that we have always blessed, since the
7
Building Bulletin 82, which is the benchmark of
output left much to be desired in architectural
8
space standards.
and performance terms. This was the era of
9
system building, of CLASP, MACE and SCOLA,
20
1910 to 1950 is fragmented. Many school
economical solutions that were backed by an
1
designs still followed the principles established
architectural philosophy that revelled in the
2
by the Victorians, albeit with increasing diversity
freedom offered by flat roofs and prefabrication
322
of materials and the quality of construction
from a ‘kit of parts’. In practice these buildings
4
falling short of earlier standards. Approaches to
were widely disliked from quite early on and
5
environmental issues also changed, with more
with age they have become even less
6
reliance on artificial light and lower floor to
appreciated, as their constructional and
7
The legacy of school building from about
8.2 (below left) Haverstock School 8.3 (below right) Haverstock School interior
4
Between 1950 and 1970 a new school
8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
89
Designing Better Buildings
environmental failures have become apparent.
Hampshire County Council under their County
This period has left a legacy with relatively few
Architect Colin Stansfield Smith. This
bright spots. Peter and Alison Smithsons’
programme has stimulated the whole debate
‘brutalist’ Hunstanton School was a one-off
about public buildings, and it is valuable to
design with individual character, but the
describe some of the trends that emerged and
majority of schools were the results of a
remain the starting point for any designer
production line of dubious quality.
approaching the design of new primary schools
The great wave of building up to 1975
in particular. They are fully reported in Richard
was followed by a very different period when
Weston’s splendid book Schools of Thought
limited school building was undertaken. The
(1991) which celebrates Stansfield Smith’s RIBA
bulge in population passed through the system
Gold Medal.
and, with ever-tightening constraints on public
These schools, designed from 1974, can
spending, Britain hit an unsustainable low in its
be seen as a reaction to the system building
approach to the educational estate. There was,
that provided ‘universal’ school building
however, one bright spot which deserves a
solutions that might be structurally and
special mention, and this was Hampshire
economically logical but did not provide
County Council.
individual responses to sites or users. Underlying the approach to the later Hampshire schools was the belief that carefully designed,
The Hampshire schools
lovingly developed individual solutions elevate the activities housed – bringing delight and
No history of school design would be complete
enhancing the activities that are
without a description of the work undertaken by
accommodated. It is a hypothesis that has fired
90
8.4 Burnham Copse Infants School
Richard Feilden
generations of architects to greater endeavours,
given their own outside space immediately
and the struggle between this view and a more
adjacent and with their own outside doors. Up
utilitarian view has characterised much of the
half a level the class bases are found – an
debate about school design.
arrangement that would be unacceptable with
In the Hampshire primary schools two
contemporary standards of design for the
main trends developed and both were
disabled. The form of this school is rather
developed exquisitely. There is a third trend
deterministic and will create inevitable
which is also worthy of mention. The first trend
restrictions on the ways that the space can be
has been characterised by Richard Weston as
used, but the richness of the architecture is
the big roof, and although there are many
expected to compensate for these restrictions.
variants it perhaps reaches its climax at
A second trend reached its finest
Burnham Copse infants school where the
realisation at Queens Inclosure First School.
building form is akin to a giant wigwam with
This much celebrated design is a long and low
classrooms spiralling to the south of a top-lit
elegant ‘shed’ that is sited parallel to a wooded
central hall. The building plays with levels, the
edge which is the last remnant of the Forest of
classrooms being half a level above the hall and
Bere. Where the big roof buildings are often
8.5 Burnham Copse Infants – plan
8.6 Burnham Copse Infants – section
91
Designing Better Buildings
designed to give identity to nondescript sites,
and Woodlea. In these buildings architectural
Queens Inclosure is designed to provide a
formality gives way to a more organic feel, with
modern but subservient counterpoint to its
individual classrooms expressed in a complex
forest backdrop. There is also a different
form relating to the slopes in the landscape and
approach to internal planning where an
linked by stairs and ramps. Here the classroom
extraordinarily open feeling is developed with
becomes the focus again, but connects to both
class spaces flowing out into circulation; and
enclosed class bases and shared resource bases
‘pods’ that contain specialist activities also
that flow out into the landscape. These are
opening into the central circulation spine that
perhaps the most popular of all the Hampshire
separates teaching areas from other activities.
primaries, a very acceptable face of modern
This school caused some trepidation for
architecture and an environment in which
teachers and parents before it was constructed,
anyone would be happy to work and study.
but in practice it is reported to have worked
It is interesting to note that the
extraordinarily well — allowing great flexibility
Hampshire schools were largely developed with
of teaching which fitted well with teaching
only limited input from the end-users and that
patterns, at least of the time when it was built.
this is an approach that is much less likely now.
The head has been quoted as saying ‘this is the
Perhaps because of this they were not
best primary school in Britain. When I walk in
universally popular with end-users, although
every morning my heart lifts because of the
they have had a very good architectural press.
way it works for children.’
It is nonetheless a pity that the County did not
The third trend to emerge in the thinking
have the opportunity to develop the typology of
at Hampshire was of a more articulate
secondary schools in a similar way, since the
architecture, almost Scandinavian in feel and
current wave of school building would have
responding to wooded sites at both Whitehill
benefited from a similar exploration.
92
8.7 Queens Inclosure First School
Richard Feilden
by folding the green roof. The school has been
111
well received, but is now due for a doubling of
2
size that was always anticipated but proves
3
The tradition of lovingly designed child-
problematic with a form that appears complete
4
orientated primary schools has been developed
in itself.
5
Some more recent primary schools
in a number of recent projects, and it is
6
interesting to note that virtually all the trail-
the Rhondda Valley in South Wales is a
7
blazing projects had rather higher levels of
beautifully crafted project that lies within the
8
funding than one would expect under normal
organic tradition developed by Hampshire
9
regimes which have led to rather more
Architects. It was also designed by the local
10
pedestrian results. Three schools are worth a
authority architects, in this case Rhonda Taff
1
brief mention.
Cynon. All the classrooms are expressed
2
externally and face east over a spectacular view
3
school at Great Notley in Essex was the result
with entrances shared between two classrooms
4
of an architectural competition which was won
so that children can be delivered to their own
5
by Allford Hall Monaghan Morris. A primary
room. Light is admitted to the backs of the
objective of the competition was to explore the
classrooms by a combination of roof and
issue of sustainability and the response is an
borrowed lights, and a sense of transparency
unusually shaped building that is essentially
pervades the building. A two-storey shared
triangular in plan. The low perimeter was a part
space runs the length of the building and
of the strategy to reduce both energy losses
connects the area of classrooms to the
and construction costs, and good natural light is
unusually generous community facilities that are
achieved through a series of rooflights achieved
on an upper level.
The new single form entry primary
8.8 Great Notley Primary School (architect AHMM)
The new primary school at Perthcelyn in
6 7 8 9 20 1 2
322 4 5
Designing Better Buildings
8.9 Perthcelyn Primary School (architect: Rhonda Taff Cynon)
8.10 Perthcelyn – interior of the double height void
94
Richard Feilden
Schools (1997) and the designers, Edward
111
the Millennium School which forms part of the
Cullinan Architects, acknowledge that full
2
development of the Greenwich peninsula. This
compliance was extremely challenging and
3
school seriously addresses both the
probably could never have been achieved
4
environmental agenda and wider use by the
without enhancement of the budget.
5
A sense of transparency is also found in
6
local community. A strong environmental
7
agenda is commonly found in schools, in part because of the perceived advantages of daylighting as described above. But the
Developments in secondary school design
8 9 10
Millennium School goes further than most, in 8.11 Greenwich Millennium School (architect: Edward Cullinan Architects)
particular by creating great circular shafts that
Whereas primary school design has become a
1
allow light and ventilation through to the backs
well-developed area of design discussion, there
2
of ground floor classrooms. This building was
has been a less strong tradition of achieving
3
designed to comply with DfEE Building Bulletin
design quality in secondary schools. Partly this
4
87 Guidance for Environmental Standards in
will be because of the difficulties of scale
5
which become self-evident in buildings that are
6
frequently 10,000 square metres or more.
7
However, the secondary school designer also
8
has to deal with other issues, including
9
providing a diversity of different types of space
20
that somehow need to be united. A sports hall
1
that may be 9 metres high including structure is
2
quite different from the scale of the teaching
322
spaces that, in a modern school, form over half
4
of the overall accommodation. Yet the two are
5
frequently combined in the same building.
6
Circulation poses particular issues, and there
7
will also be issues of community access which
8
are an increasingly important part of the brief.
9
The Schools for the Future (DfES, 2002)
30
publication defines three different typologies for
1
secondary schools. These are:
2 3
•
•
•
Street plan – typically a main internal street
4
which forms a focus for school activities
5
and the main circulation with secondary
6
circulation leading off into departments and
7
other areas.
8
Campus plan – where the school is planned
9
as a series of distinct blocks grouped
40
together in a ‘village’, with much of the
1
circulation external.
2
Linked pavilions – created from similar
3
blocks, some containing classrooms, some
4
other facilities, often around a central
5
atrium.
611
95
Designing Better Buildings
This typology is far from describing all types of secondary school, but it would be true to say that the street plan has been a particularly popular form in recent years when most circulation has been brought into buildings. My own practice was responsible for the last of the City Technology Colleges, John Cabot CTC in Bristol which opened in 1993, and this remains a good example of the street pattern. The key objectives defined for that project were: • •
To provide clarity of circulation of layout. To allow internal flexibility and the ability to extend.
•
To produce a building with design quality within a budget.
•
To minimise running costs through appropriate low energy design and specification of low maintenance materials.
In addition to these objectives the College was designed to provide good community use, and a state-of-the-art ICT installation. The building itself was intended to provide a learning resource with explicit structure and services. The plant room was visible from the main
has, however, been favourably reviewed, and
street, and a series of displays provided
the Probe studies (Post Occupancy Review of
information on the building’s performance.
Building Engineering) showed that productivity
One of the most noticeable aspects of the building design is the way that natural light pervades the majority of spaces, including the
was thought to have been significantly enhanced as a result of the building’s design. A good example of the campus plan is
main hall and sports hall, which are sometimes
the Haute Valley School in Jersey, designed by
designed virtually as ‘black boxes’. The building
plb architecture. In this scheme different
has the rather unusual feature of retractable
identities are given to activities through the use
external blinds to reduce both heat gain and
of both building form and materials. This is one
glare. These are part of a wider set of
way of breaking up the scale of larger schools,
environmental design features. It is an
as well as creating circulation that avoids
unfortunate fact that many schools with a
corridors, which can be a problem area in many
strong set of environmental ambitions prove
schools.
less than satisfactory in operation, owing to
Another secondary school designed by
poor operation and limited understanding of the
my practice, Haverstock School in Camden, is
way that the building was designed to work.
rather more difficult to categorise neatly. As an
John Cabot shares this problem. The building
urban school on an extremely tight site, the
96
8.12 John Cabot City Technology College – the street (architect: Feilden Clegg Bradley)
Richard Feilden
111 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
322 4 5 6 7 8 8.13 Haute Valley School, Jersey (architect: plc architecture)
form is to a significant extent generated by the
Finance Initiative. This is a new method of
9
restricted site and issues arising from phasing
procurement, fundamentally different from the
30
around the existing buildings, which have to be
traditional route where the architect was usually
1
retained in use during the redevelopment. As
given a pivotal position in the development of
2
with John Cabot CTC, this project has been
the project. As the government’s preferred
3
designed for very good environmental
method of procurement, which seems likely to
4
performance with shading to south-facing
be the route through which almost all new
5
windows and light introduced to as many
schools are procured, the implications for
6
spaces as possible. A particular feature of the
design quality need to be explored.
7 8
design is a very strong public presence onto
9
one of the main thoroughfares in Camden. The school has all the main community facilities
Design quality and the PFI
40 1
immediately adjacent to the main entrance and the rest of the school can be isolated so that
The Private Finance Initiative is the method of
2
security is maintained during out-of-hours use.
procurement that is expected to deliver the
3
large number of new or substantially
4
construction via traditional funding but now
refurbished schools that we now believe we
5
seems likely to be procured through the Private
need. Already 650 schools are in the pipeline in
611
This project was originally designed for
97
Designing Better Buildings
England and it is possible that the programme
upper levels. A recent survey for CABE found
will be substantially extended. It is perhaps
that:
surprising that a method of procurement should be included in a discussion of design quality,
•
Efficient and functional schools with
but it marks a fundamental change in
architectural merit can be achieved given
relationships between designers, contractors
the right partnership ingredients. However,
and clients. Initial indications suggest that some
many examples of poor design and inferior
of the design qualities that could be achieved
detailing will live on as a legacy of PFI.
through a central role for architects may be
•
provider into a pivotal role.
•
Many challenges were experienced in the PFI process.
CABE has been addressing the problems that can arise and has produced guidance
Head teachers and staff were generally satisfied with new schools.
sidelined in the PFI, which puts the services
•
Internal environment in terms of natural
intended to ensure that design quality is
light, solar gain and ventilation is
properly acknowledged and valued within the
inadequately addressed. None of the
PFI process (CABE and OGC, 2002). In order to
schools visited were totally successful in
illustrate realistic targets for new schools, ten
this area.
key principles of good school design have been identified. These are shown in Figure 8.14. To experienced school designers this list
To date, only a relatively limited number of new PFI schools have been completed. But there
will look fairly straightforward. But measuring
are around another 600 in the pipeline in
the early PFI schools against these criteria
England with many more in Wales and
presents some cause for concern. Features that
Scotland. As a new procurement route teething
might have been taken almost for granted in
problems might be expected, and the early
traditionally procured schools have now
schools have proved extremely challenging for
completely disappeared in some of the PFI
those involved. Unfortunately the legal and
schools. As an example, standards of natural
financial challenges have tended to be the
light almost invariably fall well short of
issues that have received attention, and design
recommendations in Building Bulletin 87 and
quality has been largely sidelined. With
very few new secondary schools take
increasing standardisation and growing
advantage of the potential for roof-lighting on
familiarity with the procurement route, design
1 2 3 4 5 6 7 8 9 10
98
Good clear organisation, an easily legible plan, full accessibility. Spaces that are well proportioned, efficient, and fit for purpose. Circulation that is well organised, and sufficiently generous. Good environmental conditions throughout, including appropriate levels of natural light and ventilation. Environmentally-friendly materials. Attractiveness in design, comparable to that found in other quality public buildings, to inspire pupils, staff and parents. Good use of the site, public presence as a civic building wherever possible to engender local pride. Attractive external spaces offering appropriate security and a variety of different settings. A layout that encourages broad community access and use out of hours. Robust non-institutional materials that will look good and weather and wear well. Scope for change in both the physical and ICT environment, possibility of extension where appropriate.
8.14 Ten key principles for good school design
Richard Feilden
quality can be expected to come to the fore as
111
References
one of the key selection criteria. Proponents of the PFI claim that the integration of design and construction with the responsibility to maintain buildings for a twentyfive-year period will lead to significantly better results than the previous procurement routes. Whether this is true or not will depend on a variety of factors. First, there is the question of whether the PFI will come to be seen as a ‘design friendly’ process which encourages service providers to employ the best architectural practices and, in turn, is attractive to those practices. A second, and perhaps equally important, issue will be whether sufficient funds are made available to build to a quality which offers genuine value for money. This means something more than compliance with minimum area standards. It requires the creation of schools of which users and communities can genuinely be proud. Only then will the school occupy its rightful place at the heart of the community, and as a key staging post on our children’s route into a civilised society.
2 CABE (2002) The Value of Good Design: how buildings and spaces create economic and social value, London: CABE. CABE and OGC (2002) Improving Standards of Design in the Procurement of Public Buildings, London: CABE and OGC. DfEE (1994) (Department for Education and Employment) Passive Solar Schools – a design guide, Building Bulletin 79, London: DfEE. DfEE (1997) (Department for Education and Employment) Guidelines for Environmental Design in Schools (Revision of Design Note 17), Building Bulletin 87, London: DfEE. DfES (2002) (Department for Education and Skills BDH Schools Building and Design Unit). Schools for the Future – Designs for Learning Communities, Building Bulletin 95, London: DfES. Heschong Mahone Group (1999) Daylighting in Schools: an investigation into the relationship between daylighting and human performance, report on behalf of the California Board for Energy Efficiency, Fair Oaks, CA: Pacific Gas and Electric Company. Organisation for Co-operation and Economic Development (1996) Schools for Today and Tomorrow, Paris: OECD. Price Waterhouse Coopers (2001) Building Performance: an empirical assessment of the relationship between schools, capital investment and pupil performance, Research Report 242, London: Department for Education and Employment. Weston, Richard (1991) Schools of Thought – Hampshire Architecture 1974–1991, Winchester: Hampshire County Council.
3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
99
Chapter 9
Assessing benefits in the health sector Bryan Lawson
The vast majority of architects would probably
include major public sector services such as
feel in no doubt that good design and a well-
hospitals and schools. The work reported here
cared for environment add value. Unfortunately
has been done on hospitals with the support of
demonstrating this unequivocally and empirically
NHS Estates and with the collaboration of two
is not so easy. There are two major and many
NHS trusts (Lawson and Phiri, 2000).
minor problems with conducting such research.
We were able to identify two pairs of
First we need some measures of the success
hospital wards where construction was
of the way the environment works. We need to
planned. The first pair is in general physical
know how effectively the environment supports
medicine at Poole General Hospital and the
the functions and activities housed in it.
second in mental health at South Downs in
Second, such investigations inevitably have to
Brighton. The first pair involved the
be conducted in the field and the extent to
refurbishment of existing 1960s’ general wards.
which we can control all the other variables is
In the original ward there were six four-bed
therefore extremely limited.
bays and six one-bed bays. There were
Whilst we cannot solve all these
lavatories at each end of the ward. In the
methodological problems, and no research of
refurbished unit there are sixteen single
this kind is ever likely to be entirely satisfactory,
bedrooms and three four-bed bays. The new
we believe we have carried out work reported
bedrooms have a clean simple interior using
here that comes as close as it is likely to get. To
natural timber and have ensuite bathrooms.
solve the first problem we have been
The second pair involved the
concentrating on evaluating building types or
replacement of two 15-bed wards in the
housing activities that have a measurable output
Freshfield Mental Health Unit of Brighton
and are already monitored for other reasons.
General Hospital, which were housed in
Obvious examples of such buildings would
Victorian brick buildings with typically high
100
Bryan Lawson
ceilings, with a new purpose-built mental health
and components of the building, how well they
111
unit. The new Mill View Hospital that replaced
operate, their capital and life cycle costs and so
2
these wards is a thirty-two bed unit with single
on are included here. This project, however,
3
rooms with ensuite facilities.
concentrated almost exclusively on the
4
Performance aspects of the projects. Here we
5
and patterns of patient referral that were in
consider how well the building facilitates the
6
operation in the old buildings were going to be
main purposes and functions to which the
7
used in the new buildings. Inevitably this
client wishes to put it. What is really under
8
cannot have been perfectly identical, but we
consideration here is what the building adds to
9
are as sure as we can be that the types and
the client’s main business. Here in the case of
10
conditions of the patients, and the
a hospital we have considered mainly the
1
circumstances facing them in the new
patients, although we have done some work on
2
buildings, were as similar to those in the old
the staff too. The real question the research
3
buildings as could reasonably be hoped for in
team tried to answer was: ‘Can architecture
4
real practice. Thus the only major differences
contribute to the well-being of the patients,
5
were the environments in which the patients
make their enforced stay in hospital less
6
were housed. Such a research opportunity is
unpleasant and even help them to recover and
7
not easy to come by. We had our work
leave more quickly?’
8
In both cases the same medical teams
9
approved by the ethics committees of the two
20
hospitals and enlisted the cooperation of the medical and clinical staff as well as the
Collecting evidence
1 2
management in each trust. We first held focus groups with a series of
322
sample of patients passing through the older
people involved in the commissioning,
4
wards in each case, followed by a second
management, design and daily use of these
5
sample of patients in the new or refurbished
kinds of buildings. We wanted to know what
6
wards. Sample sizes were approximately 140 in
the client’s expectations were, what the design
7
Poole General Hospital where patients typically
team’s intentions were, and what experienced
8
stayed for nine or ten days, and about 75 in the
users of such buildings thought important.
9
We were able to study a substantial
Brighton Mental Health units where patients
From these focus groups we were able
30
typically stayed rather longer for about 35–40
to establish questionnaires that would be
1
days.
administered to patients at the end of their stay
2
in hospital. These questionnaires asked them a
3
what we are measuring. There are three major
series of questions about their stay and the
4
sets of aspects that can be evaluated in a
building in particular. We asked them for their
5
retrospective examination of an architectural
reactions to the building and to the treatment
6
project. It is useful to think of these as the
they had received and staff who had been
7
‘three Ps’: Process, Product and Performance.
looking after them. We decided in conjunction
8
Process includes all those aspects of a project
with our clinical colleagues that in the case of
9
that are to do with how it came about. It
the mentally ill patients we would administer
40
includes the procurement method,
the questionnaires through their carers. The
1
commissioning and briefing of consultants, the
patients on the general wards completed their
2
design team and their management of the
own questionnaires.
3
It is important to be clear here about
process and so on. The Product group of issues
Patients were in general very happy to
4
covers all aspects of the building as a physical
take part in this study, and remarkably articulate
5
and aesthetic entity. The materials, systems
about their environment. This should not
611
101
Designing Better Buildings
surprise us, of course, as most people are
physical and mental health patients but in each
generally concerned about their surroundings.
case the differences between the old and new
However, one architect experienced in the
buildings. A series of other questions on the
design of healthcare buildings had warned that
overall design and the extent to which the
this would not be so. Patients are far too
facilities met the patients’ needs revealed
focused on their illness, he claimed, to be
similar responses. In all cases there was a
worried about the environment. Whilst of
highly statistically significant difference in favour
course some may be very seriously ill and
of the newer building.
some may be very worried, in reality most
We had a series of questions about
patients have time on their hands. Patients are,
particular spaces rather than the overall design
after all, simply members of society in a
and again the newer buildings were more
particular condition at a particular time. While in
highly praised. The most significant differences
hospital they spend a great deal of time with
were in the patients’ assessment of their own
perhaps rather less purpose than in their normal
private area, whether in a multiple-bed bay or a
lives. This may well make them even more
single room. We will return to this point later.
susceptible to the environment and more
We asked patients much more detailed
sensitive to it. Over a century ago Florence
questions about the physical environmental
Nightingale had noted the importance of their
conditions such as lighting, temperature, air
surroundings to her patients (Nightingale, 1860)
quality and noise. Again in both sets of samples
and work here certainly confirms this. In fact a
the new building tended to fare better than the
patient in hospital may get the personal
old. These differences were less marked than
attention of a doctor for probably only a very
those for the overall design and spatial
few minutes in a day and slightly longer periods
organisation of the wards. Next we asked what
of personal care from nurses and therapists.
levels of control patients had over their
However, they lie in bed, or if they are lucky,
environment, and here we found remarkably
sit, get pushed or walk around in their
disappointing results. Patients generally reported
environment for many hours.
low levels of control over their environment,
In general then we found that patients were able to assess their environment using
whether in the old or new buildings. Next we asked our patients quite
our questionnaire. The patients in the newer
explicitly if they thought the environment had
building expressed more satisfaction with the
helped them to feel better. Both hospitals
appearance, layout and overall design of their
showed a significant increase in the patients’
wards. At Poole hospital 72 per cent of the
assessments of this. We had also asked
patients in the new unit gave the highest rating
patients to assess the quality of their overall
they could for overall appearance, compared
treatment and to rate the staff who had cared
with only 37 per cent of the patients in the old
for them during their stay. In all cases we found
unit. At South Downs these figures were both
an improvement in these ratings in the newer
lower, with 41 per cent giving the highest rating
buildings, although these differences were not
in the new unit compared with only 20 per cent
always statistically significant. There are so
in the old. It may seem odd that the South
many of these figures that even though there is
Downs figures are so low compared with the
a lack of strict statistical significance they seem
Poole figures, but in reality this is not really so.
to paint a remarkably consistent picture. In the
We do largely expect mental health patients to
newer environments patients thought they had
report lower levels of satisfaction due to the
received better treatment and that their
unhappiness of their condition. What matters in
doctors, nurses and therapists were more
this study is not the difference between
helpful and attentive. This is spite of the fact
102
Bryan Lawson
that treatment regimes were the same and in
problem, not just for themselves but also on
111
many cases staff were identical!
behalf of the patients. Again, however, this
2
factor should not be interpreted as a purely
3
aesthetic matter. There was no evidence that in
4
general patients wanted classically beautiful
5
views. If anything, it is views of everyday life
6
Valued features of the healthcare environment
that seem in demand here. Views in which
7
So what were the features of these new
something happens seem desirable, and views
8
hospital wards that have attracted these
that enable conversation between patients of
9
comparatively improved ratings from patients?
the events unfolding; perhaps children leaving
10
We asked our respondents to tell us in their
school.
1
own words what features of their environment
2
The next most frequent aspect of the
were either particularly good or bad. It is worth
environment to be mentioned was that of the
3
remembering here that there are two groups of
bathroom/shower/toilet areas available in
4
factors that we commonly see on work which
hospital. Yet again the same message was
5
might be classified as ‘architectural psychology’.
repeated. Patients commonly raised this in
6
The first and most obvious concerns the direct
connection with the two specific factors of
7
relationship between people and their
privacy and cleanliness. Of course patients
8
environment. Such factors would include the
were concerned about hygiene, or more
9
colours of surfaces or the temperature of
commonly the perceived lack of it when such
20
rooms. However, the second group of factors
places were dirty. Also important seemed to be
1
concerns the way the environment mediates
the symbolic value of a lack of cleanliness.
2
the relationships between people (Lawson,
What this seemed to be signalling to patients
322
2001). Such factors would include matters of
was the lack of care, pride and concern that the
4
privacy or how spaces enable people to
authorities showed for the environment. In turn
5
establish community or maintain ‘personal
of course this sends worrying signals to
6
space’.
patients who find themselves forced to stay in
7
such a place!
8
It is often falsely assumed that the value of good design lies largely in the first category.
9
Next come the two obvious issues of
Whilst this may be true for designers with
appearance and noise. Appearance is inevitably
30
heightened senses of aesthetics, in fact it is
a highly personal matter, but again whatever
1
more often the second which matters more to
people’s taste, they do appreciate an
2
ordinary people. This is no exception! The most
environment that at least appears cared for.
3
commonly raised issue amongst all four of our
Again not all patients want an entirely silent
4
patient samples was that of privacy. That is not
ward. What matters most here seems to be to
5
to say that all our respondents were asking to
have some degree of control. Our respondents
6
be entirely private; they were most definitely
mentioned this about such things as heating,
7
not, as we shall see. However, the way the
the lighting, windows and blinds as well as
8
environment enabled them to be either private
noise. In fact the newer designed wards
9
or not as they wished seems to be of the
continued generally to offer relatively low levels
40
greatest importance.
of patient control of these matters. There is a
1
long way to go it seems in convincing both
2
matter of view. The most common complaint
clients and designers of their relative
3
made to us about any hospital situation by
importance!
4
Following on from privacy came the
patients was the lack of view. Nurses and others working in hospitals also mentioned this
5
With privacy being such an important
611
issue and our newer wards showing higher
103
Designing Better Buildings
levels of provision in single bed
true for patients in single bed rooms. Such
accommodation, we decided to investigate this
patients, however, did not express any higher
matter in much more detail. We had already
levels of appreciation of the appearance of the
found that the levels of satisfaction with
hospital.
treatment were higher for those patients in
The data confirm two interesting
single bed accommodation. At first sight this
conclusions. First, being able to decide what
might suggest that this is therefore generally
levels of privacy and community you want is
more desirable. However, it turns out this fact
extremely important to people. Second, being
was masking something more subtle and
able to control the environment is also very
important. We conducted a pilot study at Poole
high on the agenda. Finally, not only does
hospital to see if single bed accommodation
meeting these needs of people in the design
was more popular. Our data was sufficiently
lead to higher levels of satisfaction, it also
interesting for a full-scale study involving a
transfers significantly to their general feeling
sample of 473 patients.
about their treatment. Whilst it would clearly be
In fact some 54 per cent actually
foolish to advocate neglecting the appearance
expressed a preference for multiple bed space
of the environment, these data unequivocally
accommodation; 43 per cent voted for single
demonstrate that matters of privacy versus
beds and the rest expressed no preference.
community and personal control over the
This majority in favour of multiple
environment are much more fundamental and
accommodation may be slightly misleading. We
of far greater significance.
found that a majority of patients expressed a
All these results show a clear tendency
wish to be in the same kind of accommodation
for the environmental improvements to be
as they were occupying at the time. This may
recognised in themselves but also and
be partly due to patients getting their wish from
importantly to contribute to an overall
the hospital and partly due to them not being
improvement in the sense of well-being of the
able to imagine the alternative. Two common
patients, as indicated by their assessments of
reasons were given for preferring multiple bed
treatment and staff. It does indeed appear to
spaces – the wish for company and others to
indicate some real value attached to good
chat to, and a feeling that they were more likely
design.
to be given attention by nurses and might be forgotten about if isolated in their own room. Some 22 per cent of patients were
Our study also looked at the actual health outcomes of the patients. These data were recorded in the normal way by the clinical
moved during their stay in hospital; often this
staff and extracted for us and associated with
was against their wish and to satisfy the needs
the patient questionnaires. We looked at a
of another patient. Such a move was often
number of measures that might indicate
made during the night in response to some
improvements in health outcomes. The most
emergency.
obvious of these is length of stay. Do patients in
Our data show very clearly that patients
better environments actually get released from
who are in the sort of accommodation they
hospital earlier? There was some very sketchy
prefer and are left there, express significantly
evidence from a couple of earlier studies that
higher levels of satisfaction than others. They
this could indeed be the case. In a frequently
regard their treatment as better, rate the staff
cited study Ulrich has shown that patients with
more highly and consider the overall design of
a view from a window were discharged earlier
the hospital to be superior. They are also more
than those without (Ulrich, 1984).
satisfied with their level of control over the environment, although this is most particularly
104
In fact both our general hospital and mental hospital patients were released
Bryan Lawson
significantly quicker from the new wards than
compared with only 60 per cent in the old
111
the old ones. In the general medical wards at
buildings. Taken together this paints a picture of
2
Poole, patients who did not undergo operations
a far calmer and less hostile environment, with
3
were released on average one-and-a-half days
patients making better progress and being
4
earlier from the new wards. This represents a
released earlier.
5 6
reduction of about 21 per cent in the average
7
stay of just over a week. Patients who underwent operations showed no reductions in
Conclusion
8 9
the length of their stay post-operatively, although there were differences in the pre-
In sum, the evidence suggests not only an
10
operative stage. The reasons for this seemed
improvement in the quality of life for the
1
unrelated to our study and are not reported
patients, but also of course for the staff of the
2
here. In mental health wards, stays in hospital
hospital. However, there is also potentially a
3
are normally longer with an average stay of
significant saving for the NHS. We have not
4
over a month, so the reduction in length of stay
costed this yet, which is in any case a complex
5
of six days seems even more dramatic but
task. In addition to the obvious savings on
6
actually represents a reduction of about 14 per
drugs and bed occupancy it is likely that there
7
cent.
are other results. Reductions in patient
8
treatment times may in due course contribute
9
and there are many other measures that can be
to a reduction in waiting lists which otherwise
20
investigated here. For example on our general
seems to have become an endemic factor in
1
medical wards at Poole there was a dramatic
the NHS. Certainly on the mental health side
2
reduction in the amount of analgesic medication
the improvement in the atmosphere on the
322
taken by the patients on the newer wards.
wards is likely to rub off on the staff, who may
4
Class A controlled pain killing drugs such as
well take less sick leave and show a reduction
5
morphine, oramorph and codeine phosphate are
in turnover and be easier to recruit. Such data
6
generally administered on demand. On the
as we have been able to gather so far on these
7
newer wards the average number of days on
side effects are inconclusive at this stage. Until
8
which such drugs were administered was
a larger study with access to such data can be
9
reduced by 22 per cent and the number of
completed it is difficult to put precise figures on
30
doses applied on these days reduced by 47 per
the value of design in the healthcare
1
cent. However, there was a slight increase in
environment. However, it is worth noting that
2
the amount of Class B drugs taken on the
such environments are extraordinarily costly to
3
newer wards.
run, and it seems highly likely that the savings
4
The evidence is not simple to assess,
over the life cycle of the buildings may be quite
5
health unit, patients were judged by staff as
considerable. We know from our data that the
6
significantly less aggressive, making fewer
patients appreciated the better designed
7
verbal outbursts and showing fewer instances
environments and that their stay in hospital was
8
of threatening behaviour. The number of
as a result more pleasant. In the healthcare
9
instances of patients injuring themselves was
environment good architecture seems to have
40
reduced by two-thirds. Most dramatically the
the double value of making life more pleasant
1
amount of time patients needed to spend in
and treatment cheaper.
2
At Brighton in the new Mill View mental
intensive supervisory care was reduced by 70
3
Finally, it is worth returning to the
per cent from 13.1 days to 3.9 days. Finally,
question of what aspects of the environment
4
staff assessed some 79 per cent of patients as
were most correlated with satisfaction and
5
making good progress with their condition
improved health outcomes. It is interesting in
611
105
Designing Better Buildings
this regard to note that these aspects turn out
Anecdotal experience also suggests that
to be universal rather than specific; that is to
architects tackling such buildings pay great
say, they could be seen to apply to all
attention to the specific issues concerned with
environments rather than being specific to the
the typology. A simple experiential survey of
hospital. They may need different
most purpose-built healthcare environments
interpretations and realisations in buildings as
suggests that such matters as the provision of
varied as schools or law courts, but the lessons
view and enabling patients to control their
do seem to imply widely applicable principles.
environment are frequently neglected.
They concern such general matters as privacy
Regrettably in UK NHS hospitals there is at
and community, view, environmental comfort
present a frequent concern about lack of
and control of the environment. Whilst they
cleanliness. Untidiness seems endemic in such
also inevitably involve the appearance of
places with furniture and fittings procured
buildings, these factors seem very much more
without reference to the visual style of the
a matter of personal preference. However,
buildings, with notices pinned haphazardly on
where the appearance communicates other
walls, and often with later extensions and
more fundamental issues, these factors again
alterations leading to visual chaos.
seemed important and generic. Untidiness and
Even the new buildings we have
a lack of cleanliness, when they occurred,
examined in this study are far from perfect in
seemed important to all our patient samples. It
the eyes of patients in terms of these matters.
seemed from our focus group findings that
The results nevertheless show significant
these are taken by people to indicate a lack of
improvements in the levels of satisfaction and
care, of attention or even of love of the place
health outcomes from better design. Is it
by those responsible for it. The communication
therefore possible, with care, to create even
of such values, or lack of them, is clearly
better value through good design in hospitals?
disturbing and upsetting to patients who find
Is it also possible that many of the lessons
themselves unwillingly although usually
learned in this study could apply to many other
temporarily resident in them. Perhaps patients
types of public buildings and places of work?
are asking themselves ‘If the place is not loved
Clearly our study is limited in its size and scope
and cared for, what about the inhabitants?’
and much more evidence needs to be gathered
The above discussion could have
on the true value of design. At the very least
omitted the word ‘patient’ and the reader
this study suggests that it might be possible to
would have no idea the topic of discussion was
design places that enhance the quality of the
a hospital. The factors that most seem to
lives of their inhabitants whilst simultaneously
influence our patients’ sense of well-being and
enabling them to be more productive. Design
their health outcomes thus have little or nothing
may well be able to offer added value rather
to do with the technicalities of hospital design.
than, as it is so often regarded, being an added
In other words these issues are about good
financial burden.
place-making. Considering that such results are arrived at in such a technically demanding building as a hospital, this suggests some wider lessons could be learned here. It is ironic that so much guidance exists for the design of healthcare buildings. NHS Estates publishes a great deal of material and many researchers have published other notes on the design of hospitals and associated building types.
106
References Lawson, B. (2001) The Language of Space, Oxford: Architectural Press. Lawson, B. and Phiri, M. (2000) ‘Room for improvement’, Health Service Journal, vol. 110, no. 5688, pp. 24–7. Nightingale, F. (1860) Notes on Nursing, London: Harrison and Sons. Ulrich, R. S. (1984). ‘View through a window may influence recovery from surgery’, Science, vol. 224, pp. 420–1.
Chapter 10
111 2 3 4
Making special places for health care
5 6 7 8 9 10 1
Susan Francis
2 3 4 5 6 7 8 9 20 1 2
322 Healthcare buildings, like all buildings, are a
4
Five historical models
5
reflection of the social, political and cultural context in which they are created. As such they
6
The custodial model
7
offer an opportunity to relate ideas about how society defines health (and illness), or concerns
This model is most clearly characterised by the
8
in medical science with contemporary issues in
asylum that provided a safe refuge for inmates
9
architectural design. This chapter investigates
whilst protecting society from undesirable
30
the relationship between health and design by
elements. Derived from prisons in their
1
sketching five models derived from historical
architecture, in particular Jeremy Bentham’s
2
built environments for health care. These are
‘panopticon’,1 the layouts of many asylums
3
identified as ‘custodial’, ‘medical’, ‘caring’,
embodied a model of order through constant
4
‘holistic’ and ‘health promoting’. The relevance
surveillance where centralised observation was
5
of design ideas drawn from these models is
paramount. The design of routes and spatial
6
demonstrated in relation to the design of
adjacencies helped enforce discipline,
7
contemporary buildings for health care.
supported by the separation of warders’ and
8
inmates’ realms, and the dispersion of types of
9
practice are identified – patient-focused care,
inmates, by gender, rank and medical condition.
40
new technologies, therapeutic environments
The location of asylums in self-sufficient estates
1
and sustainability. These suggest a direction for
away from centres of population further
2
future healthcare environments that is devised
reinforced the idea of the asylum as a place of
3
from a care and design vision that respects the
isolation and containment.
4
Four themes that inform current design
lessons of the past whilst enjoying the
5
advantages of current developments.
611
107
Designing Better Buildings
ward sister’s room and a separate domain for
The medical model
each ward and sister. Intended to provide The medical model of the hospital developed
effective supervision of staff and patients, by
during the nineteenth century with the
the end of the nineteenth century the
development of the medical profession and the
‘Nightingale ward’ had become the orthodox
scientific method. Some doctors had already
layout.
become interested in scientific ideas about
Tuberculosis became a major concern of
design and particularly about how the
the inter-war years and sanatoria had been
environment could help to improve patient
developed before the recognition of the cause –
recovery. John Aitken in ‘Thoughts on
the tubercule bacillus – as extensions of nature
Hospitals’,2 (1771) was mostly concerned with
therapy and hygiene. Aalto’s Paimio sanitorium
ventilation in ward areas. Sir John Pringle, a
of 1929–30, widely recognised as a
military doctor, in ‘Observation of Diseases of
masterpiece in Functionalist design, illustrates
the Army in Camp and Garrison’ (1752),
3
one of those rare moments where the
described the effects of different environments
prevailing ideas about health and design of
on patients, noting that soldiers nursed in
buildings come together in remarkable synergy.
draughty barns or tents recovered more quickly
The best cure for TB at the time was thought
than those in conventional hospitals. The
to be exposure to sun, fresh air and greenery.
medical rationale accorded with the generally
In response, patients’ rooms were located in a
held miasmic or zymotic theory that disease
six storey slab block with facing-south terraces
was generated by the concentration of foul air.
on which beds could be wheeled out. Other
So, it was believed, better ventilation would
functions were grouped separately and
prevent its accumulation, thus stopping
expressed as different forms. The overall
outbreaks of hospital infections.
disposition of the elements in turn responded
A similar interpretation was given by
to the topography of the site; a plan which
Florence Nightingale, who in her Notes on
Aalto described as functionally zoned and
Nursing in 1860 wrote:
biodynamically aligned to the compass. For doctors, the development of the
Second only to fresh air . . . I should be
germ theory of disease diverted their attention
inclined to rank light in the importance for
to technical equipment for surgical and
the sick. Direct sunlight, not only daylight,
diagnostic procedures and buildings became of
is necessary for speedy recovery. . . .
secondary interest. For designers the technical
I mention from experience, as quite
and engineering possibilities brought new
perceptible in promoting recovery, the
structures and materials. Research and
being able to see out of a window, instead
guidance programmes addressed key issues of
of looking at a dead wall; the bright colours
process, efficiency, function and size in the
of flowers; the being able to read in bed by
formulation of designs for modern hospitals for
the light of the window close to the
medical care The Nuffield studies of the mid-
bedhead. It is generally said the effect is
1950s5 addressed the key issue ‘What is the
upon the mind. Perhaps so, it is not less
modern hospital?’ The studies set out a
4
upon the body. . . .
methodology for measuring and analysing the medical and nursing tasks for the modern
Nightingale developed guidelines for ward plans
hospital and devised space requirements for
in her ‘Notes on hospitals’, giving the
them. These were developed in a number of
dimensions and layout for a long rectangular
exemplar hospitals. Designs for wards, theatres
ward of thirty beds, single entrance near the
and diagnostic departments were developed to
108
Susan Francis
suit modern requirements. Key issues such as
The nature of maternity care in hospitals
111
flexibility, growth and change were also
has been challenged in the last quarter of the
2
explored. The Nuffield studies influenced a
twentieth century by pressure groups such as
3
whole generation of hospital designs as well as
the Natural Childbirth Trust. They have
4
the government guidance and the ‘Systems and
successfully campaigned against the idea that
5
standards programmes’ that set out
childbirth is an illness, calling for protocols that
6
documentation and standard layouts for the
promote childbirth as a natural process. Some
7
hospital building developments. Hospital design
maternity units have been designed to make
8
of the 1970s and 1980s became predominantly
environments that foster privacy and
9
functional and utilitarian, with a strong
celebration. The design of single rooms to
10
emphasis on designing buildings to be fit for
enable women to stay in one place during
1
purpose, at least in clinical terms.
labour and afterwards is a radical departure
2
from the factory-like processing of the
3
conventional departments with separate wards
4
for antenatal, delivery and post-natal care. Some
5
of these new units are designed with clinical
6
The caring model is one in which medical
equipment concealed in adjacent stores, to be
7
treatment is regarded as secondary to nursing
at hand if needed quickly but not to dominate
8
care. The medieval hospice or infirmary,
an otherwise supportive and non-technical
9
intended more for the cure of souls than of
environment.
20
The caring model
Buildings such as nursing homes for
1
infirm people and pilgrims and was not specially
long-term and continuing care are currently
2
devoted to the sick. Based on an adapted
being developed in the community, especially
322
and enlarged plan of similar quarters in
for older people who are either physically frail
4
monasteries, the medieval infirmaries
or are suffering dementia. These are more like
5
consisted usually of a long rectangular hall,
houses in scale, with small groups of single
6
resembling the nave of a church with an altar
bedrooms arranged around their own living and
7
at one end and sometimes a chapel in the
dining rooms. Local small hospitals for
8
middle or at the side. Treatment was most
convalescence, respite and palliative care can
9
likely to consist of bed rest, warmth,
create a social as well as health resource for a
30
cleanliness and an adequate diet. The chief
local community. Technically less sophisticated,
1
purpose of these institutions was to dispense
the programme has encouraged some new
2
charity. Since spiritual comfort was more
design ideas for stimulating sensual responses
3
important than medical care, priority was given
through tactile and aural as well as visual
4
for patients to see and hear religious
means. Gardens may offer a therapeutic space
5
ceremonies from their beds.
that can be enjoyed from inside the building as
6
well as by venturing outside to wander or sit in
7
relative security.
8
bodies, was mostly set up for indigent, elderly,
Epitomised in the twentieth century by the pioneering work of Dame Cecily Saunders, the hospice movement advocates the need to
9
provide care and comfort for people who are dying. Recognising that the medical culture of
40
The holistic model
1
hospitals is inappropriate for those for whom
2
there is no cure, hospices aim to optimise quality
A more holistic view of medicine is offered by
3
of life for patients and provide care largely
theories that have come to be known as
4
through pain management in special buildings
alternative or complementary medicine, which
5
often located away from the hospital site.
espouse the belief that health and sickness
611
109
Designing Better Buildings
relate to the whole person, and sometimes the
the ‘patient’ emerges from a closed private
whole cosmos.
world to a more open and gregarious and
Sanctuaries, or places where the healing
sociable state as their health improves.
is fostered through the subconscious, are exemplified by ancient Greece shrines. The hall for dreamers where incubations or dream cures
The health promoting model
were conducted were closed on three sides with an opening oriented to the sun allowing patients
Health promotion through educational
to see the temple through a portico from their
programmes became one of the significant
beds. Whatever the patient dreamed that the
developments for primary care in the twentieth
god Asclepius told him to do, was carried out as
century. Two early and innovative schemes in
treatment. They were built on sites with
the UK are the Pioneer Health Centre in
established meanings related to health, renewal
Peckham and Finsbury Health Centre, both of
and continuity of life, where ritual processions
which were built in the 1930s. They were
and sacrifices associated with preserving the
conceived to advance the quality of life for the
health of the city took place. The setting was
residents and were supported by radical doctors
significant for the way that it connected therapy
keen to bring about social improvements.
through renewal and purification in a civic rather than segregated setting. Some offered extensive bathing
The Pioneer Health Centre in Peckham was founded by two medical biologists as a continuous experiment of prevention and
facilities, including mud baths and tubs with
evaluation, in contrast to the prevailing approach
radioactive water from a sacred spring, not
of diagnosis and cure. The centre was organised
dissimilar to the spa resorts that became so
as a social club and whole families were urged
popular in the eighteenth and nineteenth
to join. As well as offering clinical consultations,
centuries. Towns such as Bath provided the
the centre provided sports facilities, a canteen
most fashionable spots, while more
serving organic food and a lounge area for
commercialised resorts developed in Carlsbad
socialising. Records of those using the centre
and Baden-Baden. The architect Peter
provided statistical information and showed that
Zumthor’s recently reconstructed thermal baths
some 90 per cent of users were suffering from
in Vals in Switzerland combines a richly
poor diet and inadequate exercise.
complex set of impressive spaces with highly
The Finsbury Health Centre was
sensual experiences playing with light and
designed by Berthold Lubetkin and his practice,
materiality.6
Tecton, in 1938. The plan consists of a central
The Vidar Kliniken, located in an
block housing those activities that were thought
anthroposophic community in Sweden which is
less likely to change, flanked by two wings.
inspired by the philosophy of Rudolf Steiner,
These each provided clinics and offices of
provides a retreat for people with cancer. The
rectilinear form on the outer walls connected by
clinic consists of single bedrooms, therapy
public corridors designed as lobbies curved in
rooms and meeting rooms arranged around a
plan. This shape reflected the flow and volume
courtyard. The building houses a series of
of traffic as well as giving presence to the
spaces to complement the mood of the patient
public areas. The building was conceived in its
at different stages in their illness: private
structure and services to offer maximum
bedrooms, informal social spaces and open
flexibility and ease of maintenance. Welcomed
public areas. The transition from private to
in the press, it was seen as a prototype that
social to public spaces relates to the states of
departed from the formal and rather pompous
mind which affect the healing process in which
style of contemporary municipal architecture.
110
Susan Francis
busy staff to carry out their work efficiently
111
developments in primary care buildings in the
and effectively. Detailed studies of specific
2
UK where the promotion of health and fitness
services have been documented in guidance
3
and overlaps between health and social care
as a way of sharing best practice designs,
4
are addressed. Many are designed with a
advisory and mandatory regulations. A great
5
sensitivity conscious of scale and are
deal has also been understood about the
6
welcoming and generous to any visitor not
development process from project conception,
7
necessarily ill, but wishing to take responsibility
briefing, scheme development and design
8
for keeping healthy. The integration of health
development through construction to
9
with other community services such as social
completion. Whatever the particular
10
care, education and leisure is likely to lead to
procurement method, the route map or step
1
yet further experiments such as ‘healthy living
by step guide to the development process
2
centres’.
remains principally the same. Guidance that
3
sets out functional requirements and a
4
preferred development process both assist the
5
making of buildings ‘fit for purpose’.
6
Both projects have inspired recent
Historical precedents and modern practice
The caring model introduces the
7
importance of sensual stimulation for a
8
The aim of citing these models is to illustrate a
sympathetic environment and a dignified setting
9
range of ideas and intentions about healthcare
for nursing. It suggests that greater attention
20
and medicine in relation to architectural
can be paid to how the space feels through
1
settings. They describe an intellectual landscape
stimulating the senses using colour, light, smell,
2
from which to trace key ideas and map current
and touch. Attention to such aspects of design
322
concerns. The models are not intended to
can help to make spaces feel special,
4
describe a strict chronology and indeed several
distinctive and particular to their location.
5
The description of states of healing in
6
architectural interpretations of particular models
the holistic model translates into architectural
7
of care and show that by understanding the
spaces for privacy, sociability and urbanity. This
8
intentions behind the spatial configurations it is
can suggest a sophisticated and dynamic
9
possible to reinterpret the plan.
interpretation of the hierarchies of public and
30
may coexist at any time. But they do present
private spaces. Rather than buildings being
1
presented a formal solution to maximise
seen as a collection of different rooms or
2
observation which, by inverting the concept,
services, they may be coded by the degree to
3
can suggest how to achieve legibility and
which they offer space for public or private
4
orientation for visitors, a crucial planning
activities. Entrances may, for instance, be used
5
concept in health buildings. This may be
for formal celebrations such as exhibitions and
6
achieved through an atrium plan that provides a
concerts. Social spaces that are more informal
7
unified circulation space from which the rest of
may create places to pause and reflect for staff
8
the building is visible.
and patients in waiting rooms, cafés and even
9
corridors. Private places are essential for the
40
respect for process and programme. This
many consultations and treatments between
1
model also highlights the hospital or complex
patients and clinical staff. The need for
2
health environment as one that consists of
counselling rooms to talk to bereaved relatives,
3
several discrete parts that have distinct
anxious patients and distressed staff is
4
functions. There is no doubt that health
increasingly being acknowledged in many health
5
buildings need to be fit for purpose, enabling
buildings.
611
The largely discarded custodial model
The medical model embodies essential
111
Designing Better Buildings
Finally the health-promoting model not only offers a proactive concept for health care
journeys resulted in devolving diagnostic and treatment services to wards.
environments but by acknowledging a
This process is now being applied
continuum from illness to wellness privileges
beyond single buildings across the whole health
integration over segregation. Many community
economy. Mapping the process that a patient
buildings are now being developed to embrace
may encounter through the health system is
social as well as health care, legal and financial
helping to inform the reconfiguration of services
advice, educational and leisure facilities. In a
to make more user-friendly and less wasteful
way, they are developing as a new kind of
arrangements. So, patient pathways that cross
community centre – one that includes health
boundaries between general practice and
and social care with a broad range of
hospitals and clinical networks that are
professionals offering advice, consultation and
designed across services in primary, secondary
therapy with spaces for a range of community
and tertiary care, ensure continuity of care as
activities.
patients move back and forth between home, surgery and hospital. Whilst there are national standards and targets for health care services, it
A contemporary model for care and design
is acknowledged that variations will occur from one place to another depending on the needs of the local population and the availability of
Alongside these historical precedents there are
resources. More social models of patient-centred
some significant emergent themes that inform the contemporary design of healthcare
care, such as the Planetree philosophy, propose
buildings. These include the notion of patient-
that patients and their families play a much
focused care, the impact of new technologies,
greater part in care. The idea emanated from
the idea of the therapeutic environment and
America and now has a small following in
sustainable development.
Europe. The philosophy gives greater consideration to empowering patients and their carers to participate in the decisions about their
Patient-focused care
treatment. In design terms this has led to the incorporation of key additions to the
The notion of the patient-focused environment
environment such as information centres, space
emerged in the last decade of the twentieth
for relatives in ward kitchens and special sitting
century. Patient-focused design has become
rooms away from clinical areas. A small number of studies7 have sought
explicit in the review of management systems to re-engineer the organisation of care to better
to ‘ask the patient’ directly what is important to
suit the needs of the patient. For some
them about health care environments. These
projects, this has been interpreted as a way of
qualitative studies carried out the USA and the
achieving management improvements such as
UK have relied on small samples in specific
greater process efficiencies in, say, the
services and this kind of research has yet to be
reduction of steps required to make an X-ray.
verified by more extensive and systematic
For others it has had far-reaching concerns that
studies. However, these initial pilots all suggest
question the conventional hierarchies and status
that the top 10 key issues for patients are:
of patients in relation to health professionals. In some hospital projects, the idea of bringing
•
Privacy
equipment and services to the patient rather
•
Confidentiality
than subjecting them to long and uncomfortable
•
Convenience
112
Susan Francis
•
Good access
advantage of technology and new materials.
111
•
Ambience
Developing more sophisticated spatial types that
2
•
Sense of control
distinguish between those that may be unique
3
•
Comfort
to each site, those that are repeatable and those
4
•
Being connected to staff
that lend themselves to modular construction is
5
•
Being connected to the outside world.
the key to future integration of production
6
quality with customisation and design
7
The interpretation of patient-centred design in
aspirations. This is not about the production of
8
recent buildings has generally resulted in hotel-
standard boxes, but rather the customisation of
9
like accommodation with more comfortable
selected parts of large-scale buildings. It makes
10
decor, upholstered furniture, pastel colour
sense in a sector that is looking to make
1
schemes and mood lighting. Although these
efficiencies through scale and equity across the
2
designs tend to make less austere and clinical
country but has the capacity to develop national
3
environments by focusing on comfort and
standards with local diversity, and a combination
4
control, they do not radically question the
of the best of unique craft with the elegance of
5
principles of a functionalist approach.
repeatable production. It is expected to deliver
6
improvements in the quality of finishes as well
7
as greater predictability in construction time and
8
New technologies
costs.
9
Predicting future trends is not an easy task, and
innovations was hampered by the largely
1
no more so in a sector which is undergoing
conservative and compulsory government-
2
rapid and significant changes. Technological
standardised hospital design during the 1970s
322
advances affect not only medical procedures
and 1980s, but may reap new ideas in this less
4
and equipment, handling of data for tests,
prescriptive design era. The use of technology
5
records and administration, but also engineering
to provide ‘smart and intelligent’ buildings will
6
and construction techniques.
be a key to future developments.
7
Experimentation with new technical
20
8
The information revolution is prompting a
9
paradigm shift in which the notion of the selfsufficient community is becoming outmoded by
Therapeutic environments
30 1
telecommunication networks of connected but not necessarily physically adjacent functions:
Current theories about what constitutes a
2
the ambitious notion of the paperless and
therapeutic environment all place importance on
3
filmless hospital. The centralisation of highly
the feelings and experience of the individual.
4
serviced functions such as laboratories with
They may be broadly classified into three
5
networked distribution of results may enable
groups: the scientific studies test whether
6
more efficient use of highly specialised staff
design can directly affect clinical outcomes;
7
and expensive equipment. Linked workstations
those carried out mainly by psychologists show
8
may speed information exchange between
that building features have observable
9
diagnostic imaging and theatres, wards and
psychological effects on users; and designers
40
accident departments.
and architects explore the notion that design
1
can improve healing with an implicit blurring of
2
healthcare estate relates to the integration of
boundaries between therapeutic issues and
3
design with construction. This means thinking
aesthetics.
4
Another key issue for modernising the
about how to develop off-site fabrication to deliver improvements in quality whilst taking
The scientific studies explore variables such as view, light, sound, aroma, temperature
113
5
611
Designing Better Buildings
and noise, suggesting environmental
recycling of materials over sixty years, and the
improvements that would, for example, speed
rate of emissions, particularly carbon dioxide,
recovery and reduce dependence on
into the atmosphere.
medication. The psychological studies give important clues about privacy, control and the potential to reduce stress largely through the
Conclusion
arrangement of the interior decor and furniture. The designers are concerned with making
The UK has just embarked on one of the most
spaces that uplift the mind and spirits and
significant hospital building programmes yet. A
focus on, for example, light, views and
broad-based development plan including
ambience.
specialist hospitals, community hospitals and
The studies are important for the way
health/social centres will be needed to fully
in which they highlight issues to be addressed
realise the vision of a modernised health care
in healthcare design. But none provides a
service set out in the NHS Plan.8
really adequate design theory for the future:
The development of Design Quality
each of the three types of study, physiological,
Indicators (DQIs) has involved a rigorous
psychological and design theory, is unable to
reappraisal of the key factors of what
deal with variables outside their own discipline
constitutes a quality environment. Their purpose
and therefore does not describe satisfactorily
is to clarify the factors by which a scheme can
the complexity of the issue of what
be assessed for quality of design. The
constitutes a healing environment. We may
alignment of frameworks by Medical
appreciate that a room with a view is more
Architecture Research Unit (MARU),9 NHS
therapeutic than one without, but how will
Estates10 and the Construction Industry
we assess whether the room’s aesthetic
Council’s DQIs (see Chapters 14–16)
qualities also contribute to its therapeutic
demonstrate consensus about the need to
efficacy? Or the arrangement of seats may
meet criteria relating to functional, technical
offer a place for social interaction, but so
performance as well as impact. With toolkits
might the shape of the room.
and pilot projects underway, it now remains to be seen how robust these frameworks are in supporting and reinvigorating an essential
Sustainability
dialogue between informed clients and expert design teams.
As sustainability becomes a key policy factor,
Urban design raises issues of location
so health buildings will be required to
and master planning for all health buildings.
demonstrate sustainable design in social,
Whilst sustainability, regeneration and inclusion
economic and environmental terms. Already
will inform the selection of sites for improved
key generic performance indicators are being
transportation, employment, amenity,
developed and a rating system for healthcare
environmental conservation etc., there will be
buildings called NEAT has been devised.
additional requirements for making urban
Evidence of the impact on the local
designs. The debate between campus and
community, whole-life costing and the fulfilling
centre city sites, of large-scale centralised
of an environmentally green agenda will be
hospitals rather than devolved networks, have
sought. This will require a fundamental shift in
yet to be fully articulated in terms of urban and
thinking in which design will have to make
building design for healthcare. The master
explicit such considerations as the revenue
planning of vast areas of city development will
consequences of capital considerations, the
be a reality for some hospitals and the need for
114
Susan Francis
health planners and designers to respond will
techniques whilst retaining their unique
111
sense of belonging to a specific locality.
2
Creates buildings that stimulate, surprise
3
buildings can contribute to the civic realm, but
and delight as well as deliver efficient and
4
little understanding as yet of the idea of
effective spaces: it is about making social
5
redefining spaces within buildings in terms
places to celebrate and communicate as
6
other than those dominated by functional
well as private spaces that foster dignity
7
concerns. Hospitals, for example, are invariably
and quiet; buildings that make connections
8
thought of as a collection of departments with
between inside and outside through views
9
corridors to link them. Planning priorities for
and landscapes; environments that innovate
10
efficient delivery of services have determined
and integrate art, design and architecture.
1
be on a scale as yet uncharted. There is broad acceptance that health
•
spatial adjacencies and traffic flows. The
2
consideration of space in terms of a hierarchy
It is about making places special and making
3
of public, social and private, a common theme
special places.
4
in other sectors, has yet to emerge for health.
5
Recognising the functional differences and endeavouring to create contrasting but pertinent
6
Notes
7
spaces, this strategy would give more emphasis to the character and ambience of the
8 1
spaces over their functions. It would encourage the design of space to incorporate and focus on
2
drawing together architecture with art and design in all its aspects – such as product,
3
graphic and landscape. There is no doubt that healthcare design is undergoing a significant shift in emphasis: one that is placing greater attention on how
4 5
places feel as well as how they work. It is a rich mixture of ideas and intentions that is leading to a design approach for health which:
6 7
•
Embraces sophisticated technology to make therapeutic environments for care: being both high tech and humane.
•
Integrates health into a broader social and
8 9
physical context: making civic buildings that combine health and social care. It is about creating buildings that take advantage of modern materials and production
10
Thompson J. D. and Goldin G. (1975) The Hospital: a social and architectural history, New Haven and London: Yale University Press. Cited in Christine Stevenson (2000) Medicine and Magnificence: British hospitals and asylum architecture 1660-1815, London: Yale University Press. Forty, A. (1980) The Modern Hospital in England and France: social and medical uses of architecture, in A. King (ed.) Buildings and Society, London: Routledge and Kegan Paul. Nightingale, F. (1860) reprinted 1996. Notes on Nursing, London: Bailliere Tindall. Nuffield Provincial Hospitals Trust (1955) Studies in the Function and Design of Hospitals, London: Oxford University Press. Ryan, R. (1997) ‘Primal Therapy’, Architectural Review, August, vol. CC11, no. 1206. These include studies undertaken by the Picker Institute for The Centre for Healthcare Design USA , unpublished study by Cancerlink for NHS Estates and a study in progress by MARU for Macmillan Cancer Relief. NHS (2000) The NHS Plan, London: Department of Health. MARU (2001) Building a 2020 Vision: future healthcare environments, Nuffield Trust and RIBA Future Studies. London: The Stationery Office. Department of Health (2001) Achieving Excellence Design Evaluation Toolkit, London: Department of Health.
9 20 1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
115
Chapter 11
Adding value through better urban design Matthew Carmona
In this chapter the notion that better urban
objective of research commissioned from the
design adds value is explored. In a
Bartlett School of Planning, UCL, by the
contemporary development climate, commercial
Commission for Architecture and the Built
pressures often seem to militate against long-
Environment (CABE) and the Department for
term investment in design quality. The problem
the Environment, Transport and the Regions
has been compounded in the past by a public
(DETR).1
sector that has not always placed design quality
The chapter first outlines the research
firmly on its agenda. The result has contributed
method and goes on to present the key
to a marginalisation of design, and even to a
research findings and recommendations. A
widespread perception that better design
more detailed discussion of the evidence
generates costs whilst benefits are often
gathered can be found in the published
intangible and can be discounted.
research report The Value of Urban Design
This seems to be particularly the case
(Carmona et al., 2001).
with urban design, with its tendency to fall through the gaps left between individual professional responsibilities. Nevertheless, by
The research objectives
offering concrete evidence that better urban design delivers better value (social and
The research sought to address four related
environmental, but particularly economic)
questions:
practice may be changed. In particular, by placing better urban design on the positive side
1
Does better urban design add value?
of the balance sheet, a sea change in private as
2
How does it do this?
well as public sector investment decisions may
3
Who benefits?
be secured. Exploring this relationship was the
4
How can greater value be released?
116
Matthew Carmona
To answer the questions, a three-stage
In Stage Two a case study approach was
programme was adopted. In Stage One, a
chosen as the only feasible means to gather
2
review of literature and international research
the complex qualitative and quantitative data
3
was undertaken. The aim was to deliver:
required, particularly given the potential
4
commercial sensitivity of some of the data
5
sought. Selection of case studies therefore
6
formed an important part of the research, and
7
available resources enabled the selection of six.
8
•
A ‘working conceptualisation’ of urban design
•
An ‘appraisal tool’ as a means to objectively assess urban design quality
•
The identification and listing of ‘aspects of
To draw meaningful conclusions from a
10
approach proposed to reduce – as far as
1
possible – extraneous influences on value by
2
comparing like developments in key respects
3
except for their urban design. Limiting the case
4
A key outcome of Stage One was a ‘value
studies to speculative commercial workplace
5
statement’. This combined on the vertical axis a
developments provided the first means to
6
ready-made working conceptualisation of urban
reduce such influences. By pairing
7
design – the seven ‘urban design objectives’
developments, extraneous influences could be
8
from the DETR and CABE (2000) guide By
further reduced.
9
design •
A review of ‘stakeholder motivations’ in the development process.
20
Thus three pairs of case studies were
Design – with, on the horizontal axis, a holistic notion of value as ‘sustainable value’, as
undertaken, with constituent developments
1
opposed to ‘exchange value’ (the classic
from each pair broadly reflecting the same
2
economic view). Sustainable value explicitly
geographic and market context. Pairs were also
322
recognises social and environmental, as well as
chosen to exhibit a variety of practice in urban
4
economic benefits (see Figure 11.1).
design, thus enabling a comparison in each of
5
the three locations of the impact of successful
6
and less successful design approaches. The
7
approach effectively discounted (within the
8
pairs) factors that could otherwise unduly
9
influence the results: development use; location
30
Sustainable values A. Economic viability
B. Social benefit
C. Environmental support
(broadly defined); market context; occupier type
1
1 Character
and developer type (speculative).
2
2 Continuity and enclosure
not easy, as suitable pairs proved difficult to
4
identify. Consequently, the relative quality of
5
practice was not always clear-cut and market
6
contexts varied more than anticipated.
7
Nevertheless, three pairs of case studies were
8
sought with the following characteristics:
9
In reality, the choice of case studies was
Urban design objectives
9
small number of case studies, the adopted
value’ as they accrue for better urban
11.1 Value statement
111
3 Quality of the public realm
4 Ease of movement
40
5. Legibility
• 6. Adaptability
• 7. Diversity
3
•
Predominantly office developments, but
1
including other uses
2
Development containing significant areas of
3
public/semi-public open space
4
Developments in broadly similar locations
5
built at roughly the same time
611
117
Designing Better Buildings
•
Interviews, wherever possible, sought
Developments outside the unique market context found in London (to ensure any
quantitative data to back up the qualitative
findings had wider application).
responses of interviewees, and followed structured proformas based on an analytical
Each case study was initially visited by the
framework (see Table 11.1). The framework
research team and an on-site analysis
was derived from the theoretical listing of
undertaken using a simple urban design
aspects of value derived during Stage One
appraisal tool based on the seven urban design
and structured to reflect the vertical axis of
objectives along the horizontal axis of the ‘value
the ‘value statement’ – economic, social and
statement’ (see Figure 11.2). Interviews were
environmental value. In addition, the
then arranged and conducted with
proformas were suitably tailored to each
representatives of the investor, developer and
stakeholder group on the basis of the review
designer organisations responsible for the
of stakeholder motivations. Interviewees
development; the key planning officer(s)
(with the exception of the everyday users)
responsible for the area and development; an
were also given the opportunity to complete
economic development officer (where one
an urban design appraisal of their own to
existed); at least two occupier organisations in
compare with that of the research team. The
each development; and a range of everyday
study pairs chosen were from the East
users of the public/semi-public spaces (a
Midlands, the West Midlands, and from the
minimum of 10 interviews per case study).
North West.
Case study Objectives 1 Character
Assessor: Performance criteria
Occupation: Strengths
Weaknesses
Evaluation
A distinct sense of place responding to local context
0 1 2 3 4 5
2 Continuity and enclosure
Clearly defined, coherent, well enclosed public space
0 1 2 3 4 5
3 Quality of the public realm
Safe, attractive and functional public space
4 Ease of movement
An accessible, well connected, pedestrianfriendly environment
0 1 2 3 4 5
5 Legibility
A readily understandable, easily navigable environment
0 1 2 3 4 5
Flexible and adaptable public and private environments
0 1 2 3 4 5
A varied environment offering a range of uses and experiences
0 1 2 3 4 5
6 Adaptability
7 Diversity
Summary:
Note: 0 = not at all successful; 5 = very successful
118
0 1 2 3 4 5
Total rating 11.2 Urban Design Appraisal Tool
Matthew Carmona
A brief outline of the case study pairs is included in Figures 11.3, 11.4 and 11.5. Stage Three of the research involved the synthesis
3 By responding to a clear occupier demand
111
that also helps to attract investment. 4 By helping to deliver more lettable area on
2
of the data by the research team in order to
sites, primarily through making higher
3
reach conclusions about where, how and to
density building politically and contextually
4
whom value is added. Based on the evidence
more acceptable.
5
gathered, the research questions were tentatively answered.
Does better urban design add value? The findings suggested that the answer to the first research question was a simple ‘yes’. Better urban design does add value, and in three distinct ways: by increasing the economic viability of development, by delivering enhanced social benefits, and by encouraging development that is more environmentally supportive. In coming to this conclusion, it became apparent that the notion that better design adds value is now broadly shared across all key stakeholder groups. Furthermore, this was the clear conclusion from the review of previous research, including empirical studies in the UK, the US and Australia (Department of National Heritage et al., 1996; Vandell and Lane, 1989; Property Council of Australia, 1999; Eppli and Tu, 1999) and also from the empirical case study research.
How does better urban design add value? Based on the research evidence, in economic terms, better urban design seems to add value in ten key ways: 1 In high returns on investments, including good rental returns and enhanced capital values. 2 By differentiating development products (buildings and new environments) and raising their prestige.
5 In reducing management, maintenance,
6
energy and security costs (the latter
7
through better natural surveillance and
8
better-used public spaces).
9 10
6 In more productive and contented workforces, who are more loyal and less
1
often ill.
2 3
7 In supporting the ‘life-giving’ mixed use elements in developments.
4
8 By opening up new investment
5
opportunities, markets and areas, and –
6
where available – attracting grant monies.
7
9 In creating an economic regeneration and
8
place-marketing dividend that poor quality
9
urban design is unable to match.
20
10 By delivering viable planning gain and
1
reducing the burden on the public purse in
2
otherwise putting urban design mistakes
322
right.
4 5
In social and environmental terms better urban
6
design seems to add value in ten further ways:
7 8 9
1 By ensuring that the social benefits of regeneration processes spread further
30
beyond the immediate vicinity, into
1
neighbouring areas and populations.
2
2 By avoiding the exacerbation of urban
3
malaise potentially caused by poor quality
4
urban design, in particular the undermining
5
of local town centres.
6
3 In creating well-connected, inclusive and
7
accessible new places to be enjoyed
8
by society as a whole and by their
9
occupiers.
40
4 By delivering mixed environments with a
1
broad range of facilities and amenities
2
available to all.
3 4
5 By delivering development inherently
5
sensitive to its context.
611 119
viability
• Comparison of rental values,
developments with average
• Take-up rates • Investment availability
in better
urban design
could be compared within cases or on a broader basis if
• Accessibility • Productivity of occupier • Health and satisfaction
urban design
• Duration of planning
design • Prestige and reputation
approval process
• Production costs • Infrastructure costs
Production of
better urban
• Corporate imaging
of workforce
costs, productivity, etc., which
• Energy consumption
of better
development on their standing in the marketplace
similar types of property
planning process
infrastructure costs and the
authority officials on
• Interview questions to local
and the impact of the
of cases and with average for
process, infrastructure costs,
production costs, the planning
developers addressing
• Interview questions to
their corporate performance
influence of urban design on
development and the
running costs of the
occupiers addressing the
• Interview questions to
development
performance of the
views on the economic
occupiers, addressing their
developers, investors and
• Interview questions to
Qualitative assessment
developments, within sample
negotiation for the selected
duration of planning
and infrastructure costs and
• Comparison of production
information is available
consumption, management
developments on energy
• If available, data for individual
• Management costs • Security expenditure
Operational
performance
for similar types of property
and take-up rates of selected
of investment • Vacancy rates
capital values, vacancy rates
• Rental values
Economic
performance
Economic
Quantitative assessment
• Capital values
Possible indicators
Analytical framework to assess and measure the value of better urban design
Dimensions of value
Table 11.1
process from local authorities
• Average duration of planning
industry publications
costs from construction
• Average figures for production
problems in finding comparators
developments, but there are
be possible for individual
• Quantitative information might
from local property firms
and take-up rates possibly
• Average figures for vacancy
(IPD) or local property firms
Investment Property Databank
capital values from the
• Average figures for rents and
Comments
support
Environmental
Social benefit
• Place-marketing
• Local property values
design
of better urban
• Greenery/ecology
• Traffic generation
• Accessibility
• Energy consumption
• Facilities and amenities
• Safety
• Connectivity
• Inconclusiveness
• Place vitality
• Identity/civic pride
viability impact • Area revitalisation
regeneration/
Area
or on a broader basis
comparison between cases
commuting times etc., for
transport, traffic generation,
consumption, modes of
developments on energy
• If available, data for individual
for locality (vitality)
retail, compared to average
for mixed use cases with
• If available, data on footfall
the average in the locality
developments compared to
values around the selected
• Evolution of land and property
development
environmental impacts of the
community addressing the
officials and sample of local
occupiers, local authority
• Interview questions to
vitality and inclusiveness
issues of place-identity,
research institutions
available from specialised
by type of development are
transport for users/occupier)
traffic generation, modes of
consumption (and possibly)
• Average figures for energy
difficulties with comparators
vitality might be possible for individual developments, but
authority officials and sample
• Quantitative information on
local estate agents
values in surrounding area from
• Average figures for property
of local community sddressing
• Interview questions to local
economy
development on the local
partnerships on impact of
economic development
authority officials and local
• Interview questions to local
111
2
3
4
5
6
7
8
9
10
1
2
3
4
5
6
7
8
9
20
1
2
322
4
5
6
7
8
9
30
1
2
3
4
5
6
7
8
9
40
1
2
3
4
5
611
Designing Better Buildings
Context Nottingham is a strong regional service and business centre for the East Midlands region. Castle Wharf sits between the city core and the station. Standard Court lies to the west of the centre just north of Nottingham Castle. The case study developments sit within a city that has for some time been concerned to offer a high quality retail centre, and which in recent years has extended that concern to other areas of the city outside the retail core. An increasingly active urban design team now exists within the Planning Department, and a range of initiatives have been directed towards producing more coherent advice on design quality. A number of high profile developments have also raised the profile of design.
Castle Wharf
Standard Court
Background: A mixed-use scheme comprising offices, leisure and retail space adjacent to the Beeston Canal. The site incorporates land that was originally owned by the local authority, by private owners and by British Waterways.2 In the mid-1980s a masterplan was prepared for the site as part of a plan by the local authority to unlock development potential in canalside locations. This was later followed by a design brief. Included in the negotiation for planning permission was the construction of a new bridge over the canal, improving the links between the site and the town centre and to adjacent development. The development was completed in 1999 and was quickly sold to investors, having since won a number of local awards.
Background: Standard Court is a mixed-use development comprising office spaces, residential units and three retail/restaurant units. The trigger for the development was the closure of the hospital that occupied the site. Nottingham Health Authority – the original owners – did not by themselves have the resources to demolish a 1960s tower block on the site and redevelop it, and under the advice of the design team, put forward a proposal for a PFI-style3 operation which would attract resources from the private sector. The scheme, which started on site in 1996, was by 2001 still not completed, awaiting further residential development.
Urban design: Castle Wharf received a research team rating of 29 (amongst the highest of the case studies). Based on the edge of the city centre, the scheme helps to move the centre of gravity of Nottingham towards the south, opening up a range of other sites along Nottingham’s south side. The scheme builds on the industrial canal heritage of the area to create a distinct sense of place. In a highly constrained site the development starts to make connections to the surrounding areas. The key public spaces are well articulated, animated by the range of uses, and are highly legible.
Urban design: Despite facing many of the same challenges as Castle Wharf in a similar edge-of-centre location, Standard Court has been less successful in revitalising its immediate environment. The new environment it tries to create, including a significant new public space (arena), remains largely unused and desolate. The impression is of a disconnected place, that does not invite users in to the development, and which offers users little once they are there. The research team’s urban design assessment of 14 reflected these problems.
Viability: Castle Wharf represents a development in which some of the major occupiers were partners in the project with the developers and are now freehold owners. Other occupiers came in later and are now renting from the same investor. The costs of design work and especially of infrastructure and building were high – more because of the local authority's conservation requirements than because of urban design demands. The location, in particular, is now very popular, resulting in rising asset values for the owner-occupying firms. For the tenant firms this popularity is reflected in rents that are among the highest in Nottingham. The initial developers, however, seem to have missed out on the enhanced financial gains from their scheme, having sold their partial interest at a price which gave them only about half the normal return they would have expected for such a project.
Viability: As the development is not on a busy route, its retail and catering premises could only flourish if they became destinations in themselves, which has not happened. Other new developments in the area are now largely rejecting the commercial model in favour of residential development. In the tenanted part of the scheme, rents have been below the best Nottingham levels and the investors consider the project to have been satisfactory but not excellent. The PFI arrangement has nevertheless delivered the investor an assured short – and long-term – return. Unfortunately, the development has proved less than easy to manage, in part because of the break up of the original estate – post completion – but also because of the maintenance problems associated with the under-utilised arena.
122
11.3 East Midlands (Nottingham)
Matthew Carmona
11.4 West Midlands (Birmingham/ Dudley)
111
Context The West Midlands has experienced rapid loss of established industrial activity in recent decades. In response, Birmingham City Centre has instigated a range of major transformations designed to raise its profile and attractiveness. The Birmingham case study focused on part of the central transformation, while the Dudley study examined a business park on a former steel-works site in the west of the region, adjacent to the Merry Hill shopping mall. Birmingham has for over ten years been at the forefront in supporting better urban design and provides a positive policy and administrative structure. Dudley has not been so proactive. Furthermore, the Enterprise Zone within which the chosen case study was developed effectively undermined any local authority concern for design that might otherwise have existed.
2 3 4 5 6 7
Brindleyplace
Waterfront
8 9 10 1 2 3 4 5 6 7
Background: Brindleyplace is a mixed-use scheme on the edge of Birmingham city centre with an emphasis on office space but including residential, leisure and retail elements. The scheme heralds itself as one of Europe’s largest inner city developments. Development started in 1993, after a number of false starts, and has proceeded in a number of phases, utilising a range of funding arrangements. The developers have funded much of the development activity themselves and retain stakes in a significant part of the development. Work is still in progress and the development has won a range of local and national design awards. Recent phases continue to attract a range of ‘blue-chip’ investors (and occupiers), including BT Pension Fund, Citibank and UBK.
Background: The Waterfront Business Park incorporates a mix of business, retail and leisure uses, and integrates part of the Dudley Canal into the scheme with a hard landscaped setting and formal border planting. In 1984, the Dudley Enterprise Zone was extended to encompass the site, as it was felt that this would offer the best prospects for regeneration. It was developed in two stages, first into the Merry Hill Shopping Centre and later into the Waterfront Business Park that commenced in 1990. The scheme is not yet complete, with further development being planned. Moreover, there is now a comprehensive planning strategy for the area, which focuses primarily on improving connectivity and the public realm, the aim being to create a new town centre within the area.
Urban design: Brindleyplace shared the highest overall research team rating of 29 with Castle Wharf, reflecting the high quality commercial environment that has been created. It has become a new urban quarter, with a distinct character and sense of place in which a network of well-defined public spaces punctuate the area to create a series of new activity settings. In achieving this, the centre of gravity of the city has moved across the Inner Ring Road offering considerable design benefits and linkages at a larger spatial scale. Nevertheless this is also clearly a privately owned environment with a slightly exclusive, highly commercial character. It is also to some degree an obviously ‘manufactured’ environment, with the range of uses more clearly zoned into different parts of the site than would be the case in a traditional urban environment.
Urban design: The development provides a formula business park environment built on a recycled brownfield site, dominated by roads and parking requirements. Nevertheless, a serious attempt has been made to inject a sense of place through high quality soft landscaping, a formal layout, and through relating the development to the canal. It has also created a vibrant oasis through its range of popular bars and restaurants. Unfortunately, the realisation lacks many key urban design qualities, not least a connection of the site to its immediate hinterland. Thus users need to rely heavily on private cars to reach the development. The research team’s analysis gave the development a rating of 15.
Viability: As part of Birmingham's ambitious plans to transform the city centre in the late 1980s, Brindleyplace initially fell foul of the property collapse. The developers were therefore able to buy the site from the receiver at a relatively low price. This subsequently helped them to cover high decontamination, marketing, infrastructure, and design costs. Rents for offices and restaurants are said to have at least doubled since the start of the scheme, reaching a peak in 1996 but have since fallen back in line with regional trends. Significantly, the housing element of the scheme is now changing hands at twice to three times initial prices. In terms of wider economic impact, Brindleyplace is viewed very positively as a powerful catalyst for further development in adjoining parts of the city. Construction of the later phases continues apace offering a good indicator of optimism, as does the average yield figure of 6.5%.
Viability: The specification of the buildings and landscape were higher than the prevailing level for the region at the time, and rents were set at a level above the norm. The scheme has nevertheless let well and rents are reported to have continued to rise. The scheme has prospered despite some major drawbacks, including the acute inadequacy of the road and public transport infrastructure and the failure to relate the scheme to the nearby shopping centre, town centre or with other surrounding areas. Its financial performance reflects the popularity of the scheme with occupiers, for whom there are no comparable alternatives nearby. The project has made a strong contribution to economic growth and regeneration in the sub-region. Considerable (and expensive) remedial action is now planned on the urban design front.
8 9 20 1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
123
Designing Better Buildings
Context The economy of Manchester has undergone a rapid restructuring in the last two decades, losing much of its manufacturing and port-related activity and replacing it with a growing tertiary sector. Barbirolli Square is a transformed site on the western edge of the centre, whilst Exchange Quay was an early development within the Enterprise Zone designated in nearby Salford. In Manchester, the experience of redeveloping both the 1960s Hulme housing estate, and the city centre (following the IRA bomb) has led to a rediscovery of urban design. In Salford, the closure of the Docks encouraged the planning authority to develop a new urban design framework for the Salford Quays. Significantly, the case study project fell outside of this framework and relates poorly to it.
Barbirolli Square
Exchange Quay
Background: The development comprises a free-standing concert hall (the Bridgewater Hall), two office blocks and a café/bar, and represents one of a number of development initiatives west of Manchester City Centre. In 1990, the ‘Bridgewater Initiative’ was launched as a developer/architect competition to design a new concert hall and to develop the canal basin. Planning permission was obtained in 1992 and government and funding from the European Regional Development Fund was in place by 1993. The development was completed in the late 1990s and has since won awards from the Civic Trust, the RIBA and several local awards.
Background: Exchange Quay is situated on the Banks of the Manchester Ship Canal/River Irwell at the southern-most point of Salford Quays. The scheme is mainly an office development, with a limited range of retail and restaurant units intended for the occupants of the constituent buildings. Exchange Quay was conceived in the late 1980s as a type of office centre totally new to Manchester; a piece of Dallas which would attract large international corporate occupiers to a pioneering luxury enclave in a degraded dockside area. It was completed in 1991 towards the end of the Enterprise Zone designation.
Urban design: Barbirolli Square is the smallest development examined, comprising two office blocks on one side of a square faced by the new Bridgewater Concert Hall on the other. The clever use of levels allows the central space to step down to a re-established canal basin onto which a new café opens up. The result is a gently animated public space with its own distinct character and sense of place, and, despite the exposed position of the site, with a good quality of enclosure. However, although good connections have been established on two sides of the new space, connectivity on the other two is compromised. Furthermore, the ‘corporate style’ office buildings and the introspective nature of the offices and Bridgewater Hall leave the higher levels devoid of active frontage, leading to a research team rating of 23.
Urban design: Exchange Quay was rated least highly out of the case studies by the research team (a rating of 9). The development represents a classic high-density, disconnected office development, which provides an internalised and largely car-dependent work environment. One key space forms a central gathering point including a café and a number of retail units. Unfortunately, the microclimate is poor and the amenities are minimal with the development overwhelmingly dominated by office uses and associated car parking. The buildings themselves are international in style, and the development almost completely turns its back on the Manchester Ship Canal and surrounding communities who are deliberately excluded from its spaces.
Viability: The Bridgewater Hall was financed partly from the sale of the site for office development and partly from European Funds. Initial financing for the office development was challenging reflecting the very demanding attitude of investors regarding schemes in provincial cities. The economic conditions in the mid-1990s were not very bright, and the office block (just one at that time) constituted an uncomfortably large commitment. Investors finally signed up, however, when the office scheme was split into two blocks, whilst the high quality of the urban design helped to make the case that the development would command prestige occupiers at premium rents. The history of the development has so far fulfilled the ambitions of developers, letting well and commanding rents that are the highest in Manchester. Indeed, most of the space was pre-let early on, whilst the project cost of £27m is now delivering a real estate valuation of £60m. The high capital value and associated regeneration in the area suggest that further rental growth can be confidently expected.
Viability: Initial investment was subscribed readily by a large number of international investors. Letting in the early 1990s, however, proved a severe problem because by then demand nationally and regionally was in strong decline. Instead of large corporate occupiers, only smaller users could be found and the offices had to be modified to fit multiple lettings. Today, rents at Exchange Quay remain below or around the regional average. Nevertheless the development is almost fully let, and the investor/managers are convinced that the ‘Dallas’ style of urban and building design is a feature which – together with the adequate car parking – makes the scheme enduringly popular. Unfortunately, investment returns remain low at 1–3% per annum on the original investment, although investors are in the main retaining their shares hoping for better profits in the future. However, there is little evidence of broader local economic impacts. Retailers in the scheme, for example, do not serve people from surrounding areas, nor do people who work there make extensive use of adjoining services.
124
11.5 North West (Manchester/ Salford)
Matthew Carmona
6 By giving or returning inaccessible or rundown areas and amenities back to public
also a cost that local authorities were willing to
111
pay in order to kick-start regeneration.
2
use, for example ex-industrial areas.
3
7 Through boosting civic pride and image and therefore the self-respect of local populations.
4
Who benefits from added value?
5 6
8 By enhancing the sense of safety and
7
security both within and beyond
The findings suggest that all stakeholders
8
developments.
benefit from better urban design and that these
9
win:win benefits relate directly to how urban
10
environmentally supportive (particularly
design adds value. Thus, investors primarily
1
more energy efficient and less polluting)
benefit through favourable returns on their
2
development.
investments and through satisfying an obvious
3
occupier demand, although the full payoff may
4
buildings and infrastructure – such as
not be immediate. Developers, if they retain a
5
former warehouses and disused canal
stake in their developments for long enough,
6
basins.
also benefit from good returns on their
7
investments. Furthermore, developers benefit
8
environmental benefits add up to a considerable
from enhanced company image, with
9
design dividend. Nevertheless, the research also
successful schemes regularly used in company
20
indicated that few schemes benefit from all the
marketing, and through attracting investors and
1
aspects of value, and the benefits are by no
pre-lets more easily.
2
9 Through the creation of more
10 Through revitalising urban heritage –
Collectively, the economic, social and
means automatic. Thus, issues of location, the
Designers – if able to achieve good
322
quality of office space and value for money
quality – benefit because better urban design is
4
were key to occupier decision-making, and
crucially dependent on their input and is more
5
therefore also for developers and investors; the
likely to receive planning permission without
6
former who were looking for the latter, the latter
delay. Occupiers benefit from the better
7
who were primarily concerned to find long-term
performance, loyalty, and health and satisfaction
8
above-average income streams which were
of their workforces and from the increased
9
dependent on attracting good quality, preferably
prestige that their better-designed
30
blue-chip, companies. Better urban design
developments command with guests and
1
therefore offered just one part of the package
clients. Everyday users benefit from the
2
occupiers were seeking to find, and developers
economic advantages of successful
3
and investors were seeking to supply.
regeneration, including new and retained jobs,
4
but also through access to a better quality
5
are not without their costs, particularly those
environment and an enhanced range of
6
relating to the higher materials specification and
amenities and facilities. Finally, public
7
time delays associated with more stringent
authorities benefit by meeting their clear
8
conservation requirements. Beyond these
obligation to deliver a well designed,
9
added costs, however, no evidence was found
economically and socially viable environment
40
that better urban design raised either design or
and often by ripple effects to adjoining areas.
1
development costs, or the time taken to secure
As a result of these collective benefits, society
2
planning permission. Also, the purchase of low
as a whole benefits through the economic
3
value or subsidised land was not required.
boost that urban areas receive and through the
4
Gentrification was identified as the only
creation of comfortable, environmentally
5
potential social cost of better urban design, but
supportive, well used and loved urban places.
611
Furthermore, better designed schemes
125
Designing Better Buildings
How can greater value be released?
be used as an important sales pitch to differentiate products with modest, but fundamental, improvements in urban design such as better
The research revealed clear economic, social
external linkages, more life-giving uses, and
and environmental arguments for better urban
configuring buildings to face public spaces. Such
design. At the same time it also confirmed a
improvements will place better-designed
range of barriers to delivering better design,
developments above the competition in their
particularly those inherent in established
local markets at relatively little (or no) extra cost.
patterns of investment and development (see
Crucial to the success of such a
Table 11.2). The barriers suggest that a simple
message is the need to convince occupier
causal relationship between demonstrating that
groups whose attitudes are key to the activities
better urban design adds value and its more
of developers and investors. In this regard,
frequent delivery on the ground is likely to be
some degree of education is required to convey
over-simplistic.
the message that better-designed environments
Nevertheless, a change in attitude was
offer distinct advantages to companies in
detected amongst key development
economic terms, in addition to the social and
stakeholders, in particular amongst investors,
environmental value they contribute. This is
but perhaps most crucially amongst occupiers
likely to be a more difficult task because of the
too. These stakeholders are increasingly valuing
disparate nature of occupier organisations.
urban design and its perceived (particularly
Nevertheless, finding means to promote the
economic) dividends, and where they lead,
message to potential and established occupiers
developers seem likely to follow. From the
formed a key recommendation of the research.
evidence presented, it was possible to suggest
The research indicated that the role of the
a number of key recommendations to help
public sector is crucial to the delivery of better
encourage a greater shared valuing of, and
value through urban design. It confirmed that
investment in, urban design.
this role extends far beyond regulatory planning
The first concerns the need to promote
processes, notwithstanding the important role of
the value of urban design, not least to spread the
such processes in rejecting future introspective,
message that design adds value and does so for
exclusive and disconnected development
both public and private stakeholders and
proposals. In particular, the proactive role that
therefore for society at large. In particular, it
public authorities can (and did in the more
seems important that the message that better
successfully designed case studies) play in
urban design does not necessarily cost more to
positively setting the urban design agenda
deliver but nevertheless offers distinct competi-
seems crucial. This role was delivered through:
tive advantages to producers and consumers needs to be spread to those operating across all
•
Planning powers, which need to be used
sectors of the market – and not just at the
positively and up front in the process by
prestige end. This is clearly a task for CABE, the
producing design briefs, frameworks and masterplans
DTLR, and local authorities, who might also enlist the support of the professional institutes
•
funding arrangements, which should be
(particularly those representing developers and
dependent on delivering better urban design
investors) and including UDAL. In this regard, because better urban
Influence in providing and supporting gap
•
Involvement as key landowners of
design does not seem to cost more to deliver, it
brownfield sites. The research revealed that
should be possible to make the case that well-
this latter role can provide the most
designed environments can be secured at
decisive lever to ensure better quality urban
competitive rates. Better urban design can then
design is delivered.
126
Matthew Carmona
Table 11.2
Barriers to better urban design
111 2
Barrier
Problem
Low awareness
Variable awareness of urban design issues amongst investors and occupiers, relating to how important they
4
see design quality to the success of their operations. Research suggests that different sub-markets have
5
different levels of concern and sophistication as regards design (e.g. amongst occupiers, retailers tend to be
6
more aware of the importance of design quality than office users).
7
3
8 Poor information
Unreliable available information about the actual preferences of prospective occupiers and investors,
9
especially in the case of speculative developments. This adds to the risk of diverging from standards of design
10
quality that are perceived to be ‘safe’.
1
Unpredictable
The cyclical behaviour of the property markets, because the timing of a development in relation to the ups and
2
markets
downs of the property and investment market will to some extent dictate attitudes towards investing in urban
3
design quality as perceived risk changes.
4
Piecemeal
The small size and uncoordinated nature of most developments as larger sites are more likely to bring to the
development
fore the issues of ‘place-making’ and make it easier for investors to capture more of the ‘externalities’ in the
5 6 7
form or rents and capital values. Land costs
Land ownership
8
High land costs that can reduce profit margins and leave little room for any extra investment in quality,
9
especially since in the property markets prices adjust only slowly and imperfectly.
20 1
Fragmented patterns of land ownership which can increase the time and the uncertainty of the development
2
process and lead to fragmented design solutions.
322 Combative
Confrontational relationships between developers and the public sector which increase the time taken to
4
relationships
develop and consequently increase uncertainty and risk.
5
Economic
The general economic environment, which if dominated by high inflation and high interest rates (frequently the
6
environment
case in the UK since the 1960s), will lead to shorter-term investment decisions and to less investment in
7
design.
8 9
Lack of choice
Constraints in the supply of the right quality of property in the desired location reducing the role of better
30
design in occupier decision-making – if the right location does not have good quality space on offer, occupiers
1
will go for lower quality development, rather than another location.
2
Short-term
The structure of capital markets, with planning horizons of 3 to 5 years, which makes it difficult for many
3
planning
businesses to engage in the long-term planning necessary for the perceived investments required for better
4
design.
5 6
Perceptions of
The perception amongst occupiers that although many of the benefits of good design accrue to the wider
cost
community, it is the occupiers who will pay for it in the form of higher rent, running costs and commercial rates
Decision-making
Many of the many important urban design decisions are taken not by planners, developers or designers, but by
9
patterns
people who may not think themselves involved in urban design at all.
40
Negative
Largely reactionary as opposed to ‘positive’ approaches to urban design across many local authorities, and a
planning
general failure to link the two concerns for urban regeneration and better urban design.
Skills deficit
The low levels of urban design skills on both sides of the development process which represent both a
4
significant and consistent impediment to the effective delivery of better design.
5
7 8
1 2 3
611
127
Designing Better Buildings
In this regard, there seems to be a clear benefit
(particularly in the finance/investment related
in public and private interests working together
professions) and in continuing professional
to achieve agreed economic and urban design
education for professionals in practice. The research indicated that initiatives on
objectives, something dependent on the early focused intervention of the public sector to
this front cannot come too soon. It also
clearly lay out requirements. It is also
indicated that a general lack of understanding
dependent on local authorities being willing to
(across stakeholder groups), about the
see high quality urban (and architectural) design
potentially positive role of better urban design
as a positive alternative (or at least
in reducing the environmental resource impact
complement) to conservation-led strategies.
of development, also needs to be addressed.
This, to some extent, is likely to be reliant on better publicising contemporary urban design success stories – nationally and particularly
Delivering better urban design
locally. It may also be valuable to commission research examining rates of planning approval
As well as the process-related
and the relationship to design quality to confirm
recommendations the research revealed a
(as the research suggested) that better urban
number of findings that could – if more widely
design quality actually speeds up, rather than
practised – lead to better urban design
slows down, the planning process.
solutions. The intention here is not to lay out a
The research also indicated that poor
comprehensive urban design agenda,
quality urban design is not necessarily a result
something that has already been done
of either an active decision not to invest in
elsewhere (for example Llewelyn-Davies, 2000;
better urban design, nor a lack of time and
DETR and CABE, 2000). Instead, the following
effort put into producing a high quality design
principles emanate directly from the research
product. Indeed, in their own way, all the case
and seem important in informing future urban
study developments were carefully designed
design activity:
and crafted products, although in urban design terms some did not deliver on their potential.
•
Critical mass – Delivering better quality
In this regard, there is still a need to change
urban design seems to some extent to rely
perceptions about what constitutes good
on delivering the critical mass needed to
urban design, and to ensure that this extends
support it subsequently. In this regard, new
beyond limited corporate image-making
public spaces, infrastructure improvements,
objectives to a more fundamental design
mixing uses, public realm improvements
responsibility.
and so forth, all rely on the realisation of developments large enough to cross-fund
The related issue of poor urban design skills was identified as a key barrier to the
their delivery. The finding suggests an
delivery of better urban design, and extends
important role for the public sector in
beyond the private sector to the public sector.
compiling or helping to compile larger sites
Initiatives have been launched by DTLR (Arup
or in helping to better integrate adjoining schemes.
Economics and Planning, 2000; Davies and Rowley, 2000) and CABE (Urban Design Skills
•
Coordination – This should not suggest,
Working Group, 2001) to begin to address the
however, that smaller, more incremental,
skills deficit, but fundamentally the gap needs
development cannot contribute to the
to be filled across all professional education
delivery of better quality urban design.
concerned with delivering the built environment
Nevertheless, for urban design to succeed
128
Matthew Carmona
by such means, clear arrangements and
distribution of any new public spaces and
111
strategies need to be put in place (by public
‘life giving’ uses across developments is
2
or private parties) to help deliver a well
fundamental. In particular, the location
3
considered and coherent whole. Positive
of any public amenities at accessible,
4
and proactive planning through the
well-connected points in developments is
5
production of clear urban design guidance
vital if both spaces and uses are to
6
(frameworks and briefs) is likely to be the
succeed.
7
Sustaining social diversity – Good
8
well as the coordination of planning gain.
urban design can make areas more
9
Lifetime costs – Management and
attractive to higher-income residents and
10
maintenance costs should be considered up
the businesses and services which supply
1
front in the development process. This is
or employ them, indeed this is often one
2
easier said than done when many of those
of the purposes of urban regeneration. It
3
with a longer-term interest in developments
is important, however, to minimise the
4
do not come on board until later in the
displacement of existing residents and
5
development process. Nevertheless,
businesses in whose name urban
through simply adopting core urban design
regeneration is usually justified. In this
principles – such as clearly overlooked
regard mixing housing as well as housing
spaces and design that reduces negative
tenures and prices into new developments
microclimatic effects – the delivery of
should be a key objective for better urban
reduced management and maintenance
design. For the public sector, finding means
costs can become a positive sales pitch at
to harness the increased value of better
little or no extra up front cost.
quality development to invest in established
Strategic urban design – The research
community infrastructure would also seem
indicated that urban design has an
important. This implies the wise use of
important strategic dimension, and that
planning gain to combat – rather than
where this is ignored the value (particularly
exacerbate – any disadvantage.
key to such incremental approaches, as •
•
•
6 7
1 2
322 4 5
8 9 30
The need for more research
1
development into established infrastructure
2
frameworks – seems key to delivering
Despite the clarity of the conclusions, in reality
3
better designed environments that also
the evidence was complex and extrapolating
4
carry an economic dividend.
the research findings to make the case that
5
Mixing uses – The delivery of mixed-use
better urban design adds value in all locations
6
development was fundamental to the
and for all developments comes with an
7
social, economic and environmental value
important health warning. This is based on the
8
added by the most successful case
facts that:
9
studies. Clearly, every effort needs to made by both public and private parties to
40 •
achieve such integration, particularly in light of the higher user and occupier
•
satisfaction that results. •
20
7
reduced. This positive planning at a larger
•
9
6
social) added by development is much spatial scale – particularly the integration of
8
Locating spaces and uses – Related to this key point, the very careful location and
•
The research only looked at three regional
1
markets
2
The research looked at predominantly
3
office-based environments
4
The empirical conclusions are based on six
5
case studies only
611
129
Designing Better Buildings
•
The evidence suggested that where
Notes
development is in short supply, almost all development adds value of some sort.
1 2
For all these reasons, this research should be considered merely an early step on the road to clarifying if and how urban design adds value,
3
Now the office of the Deputy Prime Minister (ODPM). The state-owned body responsible for the management and maintenance of most British canals and inland waterways. The Private Finance Initiative (PFI) provides a means for public sector bodies to finance development usually through sale and lease back to the private sector.
with further research required to strengthen the case. Nevertheless, an initial insight into the process and form of value creation through better urban design has been offered, and the conclusions seem to confirm current UK Government policy approaches that themselves value better urban design. Further research could both confirm the findings, and test how they relate to different contexts, markets, land-use types, and development scenarios. This would add to the critical mass of knowledge, and further inform policy measures and the decision-making processes of public and private stakeholders. In the meantime, the consistency between the findings reported here and the other UK and international research on value and urban design examined during the work should give reasonable confidence that the more detailed conclusions reported above would be substantiated by any further research undertaken in the future.
130
References Arup Economics and Planning (2000) Survey of Urban Design Skills in Local Government, London: DETR. Carmona, M., de Magalhães, C. and Edwards, M. (2001) The Value of Urban Design, London: Thomas Telford. Davies, H. and Rowley, A. (2000) Training for Urban Design, London: DETR. Department of National Heritage, English Heritage, and The Royal Institution of Chartered Surveyors (1996) The Value of Conservation: a literature review of the economic and social value of cultural built heritage, London: RICS. DETR and CABE (2000) By Design, Urban Design in the Planning System: towards better practice, London: Thomas Telford. Eppli, M. and Tu, C. (1999) Valuing the New Urbanism: the impact of the new urbanism on prices of single family houses, Washington, DC: Urban Land Institute. Llewelyn-Davies (2000) Urban Design Compendium, London: English Partnerships and The Housing Corporation. Property Council of Australia (1999) The Design Dividend, Canberra: PCA National Office. Urban Design Skills Working Group (2001) Report to the Minister for Housing and Planning, Department for Transport, Local Government and the Regions, London: CABE. Vandell, K. and Lane, J. (1989) ‘The economics of architecture and urban design: some preliminary findings’, Journal of the American Real Estate and Urban Economics Association, vol. 17, no. 2, pp. 235–60.
111
Part 3
2 3 4 5 6 7
Delivering better buildings
8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
Design has been defined in many different
report by the CRISP Design Task Group, which
322
ways – perhaps that is what makes it such an
he chaired. As a report about research needs to
4
intriguing issue for reflection. In terms of
support design, it contained a highly detailed
5
buildings, it is taken to be that part of the
set of recommendations set out as ‘39 steps’.
6
process that lies between working with the
In the intervening period, much has happened
7
client to identify requirements and aspirations
to promote and implement some of its original
8
on the one hand, and on the other putting
recommendations. It remains, however, a
9
together the components and systems to
carefully constructed and thought-provoking
30
construct it. A definition produced by the
paper which deserves to be much more widely
1
Construction Research and Innovation Strategy
read. For this book it has been edited and
2
Panel said:
updated and, at the strategic level, its
3
recommendations have lost none of their
4
Design is the activity that brings together
urgency. The chapter stresses the need to
5
and integrates all the diverse contributions
place occupancy criteria centre field. It
6
of the construction industry to produce a
proposes quick response research suited to the
7
product that meets customer needs.
needs of industry, together with longitudinal
8
Among its strategic priorities, CRISP
research into building performance and value
9
identified design as one of five broad areas
over the longer-term. Educational reform is
40
crucial to industry improvement.
called for to raise the profile of the built
1
environment, to encourage trans-disciplinary
2
knowledge-sharing, and to increase awareness
3
(CRISP, 1999)
of the social and ethical dimension. Sectoral
4
Giles Oliver originally wrote Chapter 12, Design
frameworks for studying design quality are
5
quality needs conscious values, in the form of a
proposed, together with cross-sectoral
611
131
Designing Better Buildings
communication, and supported by evidence-
building services and an organisation’s ability to
based research. Perhaps most crucially the
operate them effectively.
chapter calls for the development of a common
Where chapter 13 is mostly about the
language for design which releases the widest
relationship between designers and clients
value contribution from all stakeholders within
before and after construction, Chapter 14,
the industry and the society it serves.
Managing design and construction, is primarily
If Chapter 12 stresses the importance of
concerned with the relationship between
evidence-based design, Chapter 13 is itself
clients, designers and buildings before and
written from the perspective of extensive
during the construction process. Its author,
research into how people use buildings. Its
Peter Trebilcock, starts with a historical sketch
authors, Adrian Leaman and Bill Bordass, have
of the building of Blenheim Palace. This
been centrally involved in post-handover or
illustrates a range of difficulties faced by major
post-occupancy studies of buildings for more
projects. These include lack of clear payment
than a decade, including the Probe series. The
arrangements; inaccurate initial cost estimates
chapter, entitled Flexibility and adaptability,
and escalating costs; loss of trust between
draws on their experience to identify a series of
client, designer and builders; and claims and
lessons for coping with change – lessons not
counter-claims among the parties. Unfortunately
only for design, but also for handover and
these problems are not just historical – the
occupation. Building needs and uses change,
construction of buildings is fraught with
and the provision of flexibility is one way to
difficulties, and a climate of adversity and blame
cope with it. However, in their experience,
typifies many projects. While several
unpredictable changes may defeat flexibility
government-sponsored reports about the state
strategies. For example, over-provision of
of the construction industry historically have
building services to meet anticipated future
identified similar problems, the latest two –
needs can cause excessive complexity that
‘Latham’ and ‘Egan’ – backed up with a number
reduces freedom and constrains changes in
of initiatives to support the changes they
work patterns, while also removing the
identify as necessary to improve the industry,
possibility of giving occupants any control over
appear to be having a real impact on the
their environment and leading to dissatisfaction.
industry.
Increasing uncertainty leads to demands
Trebilcock’s chapter focuses on better
for built-in flexibility but, the authors ask: ‘How
integration between designers and the supply
much is enough?’ They recommend that briefs
chain as one of the contributions designers can
should be as explicit as possible about the need
make to the new ways of working called for by
for on the one hand flexibility – that is,
Latham and Egan. In his examples he illustrates
anticipated short-term changes – and on the
how improved management practices at the
other hand adaptability – less frequent but more
design stage – specifically better integration of
fundamental ones. The two should not be
the design team with those responsible for
confused with each other. They suggest it is
delivery of a building – improve predictability,
vital to get the basics right, such as adaptable
functionality and fitness for purpose of the
envelopes that are good at moderating
completed project. He describes a number of
selectively the external climate; inherently
approaches concerned with forward planning,
efficient technologies for conditioning interiors;
improved communication, and programmed
and systems that provide adaptive opportunities
information flow, together with more formal
so that occupants feel they have some control
methods such as the use of value engineering
over their environment. It is also vital to ensure
and value management. Between them, these
a good match between the sophistication of the
methods contributed to improved financial
132
Delivering better buildings
control, greater predictability, and a reduction in
greater likelihood of their being achieved in
111
variations and abortive work. These approaches
practice first time round.
2
will not of themselves necessarily result in buildings that are recognised as having design quality. However, they do help to ensure that if specific requirements for design quality are fed into the start of the process, there is a much
3 4
Reference
5
CRISP (1999) Acquiring Knowledge, Developing Tools: CRISP strategic priorities 1999, London: CRISP.
6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
133
Chapter 12
111 2 3 4
Design quality needs conscious values
5 6 7 8 9 10 1
Giles Oliver
2 3 4 5 6 7 8 9 20 1 2
This chapter was originally written for the
it seems dated in parts I am glad. Perhaps its
322
Construction Research and Innovation Strategy
value is in the attempt we made to range across
4
Panel (CRISP). Among its strategic priorities,
the field, to indicate the beneficial connections
5
CRISP identified design as one of five broad
between design subspecies. A persistent theme
6
areas crucial to industry improvement:
is the haemorrhaging of knowledge that occurs
7
in the absence of systematic post-occupancy
8
Design is the activity that brings together
evaluation of completed buildings and built
9
and integrates all the diverse contributions
environments. It is instructive that the pressure
30
of the construction industry to produce a
to stem this, to learn systematically, is coming
1
product that meets customer needs. It has
from the so-called ‘PFI providers’ where long-
2
received relatively little attention in recent
term investments (thirty years or so) in new
3
industry initiatives. CRISP is keen to
buildings prevent them ‘handing on’ the prob-
4
encourage research on design which is
lems. But will they, as private companies, wish
5
appropriate to end user needs and to
to share knowledge? That is the challenging
6
optimising the construction process. Recent
ethical subtext which remains to be addressed.
7
and current work on integrating design and
The suggestion that the historical reservoir of
8
construction needs to be moved speedily
knowledge held by schools of architecture,
9
into practice.
known as ‘history’, could serve as a feed tank to
40
post-occupancy studies and research remains to
1
CRISP, 1999
be developed. It would make a wonderful
2
The paper was intended as a call for research
research subject, guaranteed to put the cat
3
across the wide field of design quality. As this
amongst the pigeons.
4
book witnesses, there has been a recent burst of activity – the research has indeed begun. So if
Post-occupancy research remains the
5
next explosive and potentially enriching area for
135
611
Designing Better Buildings
all built-environment professionals. It is
The University of Cambridge Estates
inherently interdisciplinary. People have to talk
Department is initiating a new contract where
to each other. There are complex issues of self-
the design team stays on for four years to help
interest and public-interest involved. The Probe
the building settle in and to learn, under the
team (see Chapters 3 and 13) cannot be
broad heading ‘soft landings’. That approach
expected to cover this entire landscape, like
deserves research and support. I hope the chapter reads as an attempt
ghostbusters dealing with the whole of New York! Project insurance could unlock this area of
at ‘joined-up challenging’. Analysis of causes
professional hanging back. This chapter only
does assist when determining why obvious
touches on the ownership of design research
improvements are failing. And analysis works
and reflection. More, much more, needs to be
only when our values are set in motion.
said about this. When something fails to be explored, or fails to reach the public domain, I would argue that that itself is worth inquiring about. What interests combine to fly in the face of common sense? ‘Why’ as Sherlock Holmes so acutely enquired ‘did the dog not bark in the
CRISP’s terms of reference for the Design Task Group Our adopted term of reference was to
night?’
establish a research strategy for a sensitive Two outstanding areas of research and
methodology capable of tracking values
practical energy have lit up the field since the
generated throughout the design process
paper first appeared. The work of CABE in the
so that clients’ needs can be systematically
UK in promoting design quality at the widest
met and expectations exceeded. Such a
level, and the Construction Industry Council’s
strategy must enable the client to monitor
hammering out the elusive Design Quality
the design process at all stages, minimise
Indicators (see Chapters 15–17). Of the 39
uncertainties in performance outcome and
CRISP recommendations, approximately two-
capture extra value at all stages.
thirds now have research champions at work. From where I write, the most significant unexplored area of design research remains that of the deep study of buildings in use and through time. Clients and users find it inexplicable that the construction team melt away once the project is so-called completed. Well we, and I write as a practising architect, should spell out what we need in order to participate. If it takes legal protection, extra fees or mutual cooperation for us to stay with the environments we have helped design, this requires advocacy. And it is the design team as a whole that needs to do
During a six-month period of intensive group discussion fuelled by members’ papers, a specially commissioned research review of the field and a concluding delegate workshop to test our propositions, we developed a wide ranging set of strategic proposals. The original paper (Oliver, 2000) captures these, together with our research recommendations in the form of 39 steps. The five main strategic recommendations from the Task Group are: 1
this. Complex buildings can now have up to a dozen design professionals and specialists
2
intimately involved in the creation of satisfactory
To establish sectoral frameworks for design quality supported by evidence-based
and inspiring environments. Gathered project knowledge is a valued capital potentially avail-
To raise the quality of our built environment by placing occupancy criteria centre field.
research. 3
To initiate quick response project-linked
able to clients and users over the lifetime of a
research suited to the needs of the
building. It is routinely squandered or dissipated.
industry and occasional client.
136
Giles Oliver
Table 12.1 39 Steps – the CRISP Design Task Group’s recommendations Sectoral Value Research 1 Research into sectoral initiatives to establish design value, with systematic ordering of criteria to assist comparison and respect differences. 2 Encourage dialogue between sectors to learn from each other’s evaluation systems. 3 Research successes and failures at a design level of the PFI initiatives commissioned by Government to date, by sector. 4 Urban design evaluation requires urgent integration into the emerging matrix of building studies. Project Based Research 5 Immediate research into the design values of the Demonstration Projects offered by Industry, including conception, development, construction and post-occupancy stages. 6 Inception Research: Design Experiment with Operational Testing. Establish “Quick Response” funding for sectoral project based research, allowing ‘up-front’ innovation support on a project by project basis. ‘Backsight’ Research/Feedback & Dissemination 7 How to establish connecting feedback ‘loops’ so that studies take effect and are seen to do so. 8 Support for communicating research efforts to all stakeholders. Longitudinal Research 9 Longitudinal research into building performance and value over time, including historic and contemporary ‘post-occupancy’ analysis. 10 Flexibility of building uses, to encourage sustainable design through time, to develop a rating system accessible to owners, users and planners. 11 Integration of building economics into parameters for change on terms understood by all stakeholders. Educational Research 12 Raise the profile of Built Environment design within National Curriculum to equal the enthusiasm accorded to the Natural Environment. 13 Public educational support through regional architecture centres as crucibles for change, debate and visualisation. 14 Education of design professionals in production management with cross-industry placements to fertilise the construction field. 15 Education of Design Professionals to include methods of thinking, ethics, social context, communication as fundamental. 16 Research into obstacles to raising profile and status of Building Services as a career. 17 Re-integrate Architectural Research into the demand-led improvement of building Quality, Usefulness and Delight. Building types, case studies, symbolic and aesthetic contribution of architecture are all valuable and sought after. 18 Educating the current players – encouraging continuing professional education for change and feedback. Trans-disciplinary events and seminars providing specific merit awards. Cultural Values Research 19 To investigate inhibitors to team-working training during design professionals’ ‘whole-life’ education and illustrate successful initiatives that break this mould. 20 To assess effectiveness of the historic ‘learned society’ model for inter-specialist tasks and interdisciplinary challenges. 21 To investigate and monitor institutional inhibitors to client-centred improvement and demonstrate positive alternatives. 22 Encourage cross-disciplinary learning from other sectors (such as medicine, manufacturing, psychology). International Comparisons: Learning from other cultures 23 International scoping comparison of design assessment methods in practice, including cultural identifiers (Japan, Holland, Scandinavia). 24 Scoping Review how professional institutes in other countries contribute to design awareness and value definition. 25 International survey of educational institutes initiatives at developing common design language – at primary, secondary and tertiary levels. Communicating Design Values: towards a shared language 26 Research into best practice Briefing languages and value-systems by means of successful examples/case studies. 27 Research into effectiveness of establishing a networking exchange on buildings in use embracing all stakeholders. 28 Research into effectiveness of establishing a think-tank for industry wide research into design, embracing all disciplines across asset/revenue divide. 29 Research into the effective communication of complex processes with trans-sectoral comparisons. Assessment Criteria and Indicators: widening the measurement path 30 Research into how can understanding of Cost, Value and Worth be improved throughout the project team? 31 Examine current cost-in-use studies in practice, their limitations and areas requiring refinement. 32 Test methods for improving industry’s capacity to express its needs - in particular workshops, dialogue, deepening understanding between estranged parties. 33 Scoping studies into existing methodologies for assessing value in buildings. 34 Establish appropriate and new ways of approaching post-occupancy assessment. 35 Invite proposals to research and establish Design KPI’s, from all sectors. Change agencies 36 Extend Government sponsorship of design champions in the field of the built environment linking CABE, Design Council and Regional initiatives. 37 EPSRC/ESRC and other key research sponsors to communicate more widely its current support for interdisciplinary research teams, since such teams are necessary to capture answers to interdisciplinary problems. 38 Research sponsors to develop specific policies for design research to guide and invite the issues raised in this report and elsewhere. 39 Research sponsors to call for ‘outside the box’ research into interdisciplinary design issues, with experimental funding outside the conventional research review time cycle. This can underpin longitudinal research. Also encourage short penetrative research commissions (such as the Task Group Study) that publish and be damned. The industry can provide a wealth of committed individuals prepared to offer valuable support in kind provided their contribution is time limited.
137
Designing Better Buildings
4
5
To encourage widespread educational
favour of good design and design quality with
reform to support greater quality in the built
understandable, robust and widely accepted
environment.
definitions and empirical evidence. Our view is
To develop a shared language for design
that behind the rhetoric is significant and
which releases the widest value
correct intuition which is, in a sense, searching
contribution from all stakeholders within our
for a shared language and validation.
industry and the society we serve. From the outset the group focused on a number of leading questions: •
Can we agree on the meaning or essential ingredients of good design?
•
What is the common language we use to assess or describe good design?
•
How can we provide evidence to qualify our assertion that design has value?
•
How do we actually value design?
•
Do we have shared values?
•
Can value be measured?
We considered these questions critical to
Valuing design In our language design is used to describe both a process and a product. This alerts us to the fact that when design is commonly talked about we are immediately involved with an activity leading to synthesis. The term value is similarly charged. Our challenge has been to interrogate the powerful implications of these two terms and their interaction. The invitation to do so was not academic in the conventional sense for they are on everyone’s lips; politicians, construction professionals, industry leaders, government and the media.
establishing the terms of reference for design to play a significant role within industry improve-
Mapping the field
ment and the declared objective of meeting client and end-user needs. The debate is still, in
The group’s declared intention was to identify
our view, in its early stages in this country and
what research was required to help establish a
we would encourage everyone with an interest
common language in valuing design within the
in the outcome to contribute. We hope our
built environment. We asked what methods are
efforts can serve to stimulate the reflection and
in use to extract evidence of design’s
debate that must underlie effective change.
contribution and what possibility is there for agreement? Is the intuition that good design
Beyond the rhetoric
contributes value supported by evidence and rigorous research? To support our work we
Recognition of the contribution that is made by
immediately commissioned a literature review
good design in the built environment is now
(Macmillan, 2000a). We set out our ambitions in
widespread. During the short period of the
a field diagram to set the scope of our study
group’s deliberations, we noted its arrival in
and ensure wider linkages were considered
public and government debate, perhaps
(Figure 12.1).
triggered by the Millennium projects, by the Egan impacts and by its emergence as a
The review proceeded through four reporting stages: examining process, value
significant Government theme (Blair, Prescott,
systems and product. It showed that while
Raynsford, Smith). However, what this
process was being addressed with some energy
recognition means is still elusive, and
(principally from a construction management
definitions and delivery remain unclear. Certainly
perspective) there is a paucity of research in the
public emphasis was not triggered by research
fields of value systems and product itself.
as such. Indeed the group’s studies showed a tremendous need for backing up the rhetoric in 138
It was quickly felt that confining attention to the measuring of time, cost and achievement
Giles Oliver
against brief failed to capture the opportunities
principal challenge is the evaluation of what are
111
good design offered in practice, preventing
thought of as ‘subjective’ criteria.
2
wider assessment of the product’s impact
The difficulty of measuring socially
3
within the built environment. We emphasise
appreciated goals such as ‘Function,
4
that in many ways process measurement is
Sustainability, and Delight’ (Macmillan, 2000b)
5
essential to developing a more adequate
alerted us to the importance of the open
6
assessment culture and our observations as
declaration of values. Just as the open book
7
to its limitation are in no sense dismissive.
underpins good partnering, we suggest that the
8
We would rather term it foundational work
open statement of values could similarly assist
9
(Figure 12.2). However, quality of process does
the achievement of a shared goals. The
10
not necessarily result in quality of product. To
dispersed and sequential character of the
1
measure this from the supply side, as it were,
stakeholders in the construction and
2
limits the benefit. For clients in the widest
management of buildings is widely
3
sense, the process is of relatively less interest
acknowledged. The impact is a variety of goals.
4
than the quality of the outcome.1 If the Lean
We all interpret these goals differently and
5
Thinking analogy is employed here, the ‘pull’ for
place different priorities on them. Most
6
quality has to be felt from the client, the
commonly noticed are the ‘delivery and
7
occupier and in the widest sense the public
handover’ goals of the design and construction
8
user of the buildings and environments. If
team, while the client’s aims are only just
9
demand is currently inarticulate or dispersed,
beginning – to put the building to productive
20
this does not diminish its importance.
use. Dialogue and assistance between the
1
constructors and the management/maintenance
2
sphere of the project, with its cost targets,
teams are weakened, and the lessons to be
322
agreed product form, and time frame, the map
learnt are not passed on. Lifetime costing, PFI
4
of design opens up into a territory that is both
and framework agreements are breaching this
5
hard to measure and filled with competing
culture, but occasional clients rely on the
6
voices who lay claim to be our guides. The
industry to guide them.
7
As soon as we leave the measurable
8 Money
9 Power
Product designer Contractor Suppliers
1
Community
2
Politics Therapy
3 Product
Users
Consultants
30
Society
Client
4
Viewpoints Designer
7 8
Delight Sustainability
Value systems Time
6
Lifetime values
Function Unidentifiable effect
5
Structural role
Sophisticated measurement system
2
Change Scale Sector types
Process
40 1
Performance enhancement
Cost
9
Cultural measurement system
3
Cultural value
4
Brief
5
611
12.1 Design Realms Map
139
Designing Better Buildings
Self-actualisation – the need for realising one’s own potential for continual self-development
12.2 Maslow’s hierarchy of needs
‘Ego’ needs – self-esteem, reputation, and status
Social needs – the need for belonging, acceptance and friendship Safety needs – protection against danger, threat, and deprivation Physiological needs – the need for food, drink and shelter
The needs form a hierarchy, according to Maslow, because the lower-level needs have to be satisfied first. Only when these needs have been satisfied will the individual seek to satisfy the higher needs. ‘Ultimately, a musician must make music, an artist must paint, a poet must write, if he is to be happy. What man can be, he must be and this is called self-actualisation’.
From the ground up: the importance of sectoral research
world at a stroke. Such an approach shares with the M4I’s Key Performance Indicators, an ambition to achieve a single system for all
Just because there is no simple measure of
questions. Not surprisingly, the character of the
design value it should not blind us to the
post-Egan initiatives have been widely noted as
important work underway in different sectors of
evangelical.
construction; housing, higher education, offices, health and elsewhere. Some sectors proved to be much more developed and well funded than
In whose interest do we design well?
others. We attempted a brief scoping study across the sectors and immediately it became
We immediately discovered that identifying
apparent that there is much to learn. But each
values raises the challenge of acknowledging
sector has to establish its own value-
power. Or put more comfortably perhaps,
programme in order to make good use of the
sectional or productive interests. If Usefulness
lessons from others. Housing criteria differ from
is Value’s mother, then the often absent and
higher education criteria, for example, but both
overlooked father is Power. Large companies
can provide some mutually useful guidance for
with sequential building programmes and
student residences or single person hostels.
relatively clear business plans have begun to
Trans-sectoral communication deserves
establish design/constructor teams (BAA
encouragement and support. Some sectors
Framework, Tesco, and so on.) These are the
have more sophisticated approaches to the
‘professional clients’. Who is in charge is made
discrimination of design value. Facing the
clear from the start – the client’s business
differences and commonalities will develop
goals. Hence the message of Egan from this
each sector’s powers of discrimination.
very sector. However, the occasional nature of
We are very cautious of the assumption
the construction process (when narrowly
that there might be a Holy Grail of universal
defined as new accommodation) prevents many
design quality indicators because at the very
clients, typically small and medium-sized
least, interpretation changes with time and
enterprises (SMEs) from assuming such control.
cultural perspective. The assumption of a
The occasional client is therefore invited to turn
universal standard measure, which research
to the industry to supply the right product. Who
bids may claim is possible, may indeed attract
then does the remembering? This is well-
funding since it appears to clean up a confusing
rehearsed territory and includes the bulk of
140
Giles Oliver
construction output. What we draw attention to
and collective memory. There has also been a
111
here is its impact on design culture and delivery
loss of research and assessment teams within
2
of design quality.
major government departments, the DETR being
3
no exception. This reduces points of access and
4
together to sustain the intellectual and material
dialogue that the whole industry can share. This
5
investment required to journey together from
shift is probably irreversible and points to a
6
project to project (‘virtual companies’, supply
major underlying theme to this study and other
7
chains, etc.). This is necessary and admirable,
CRISP Task Groups’ work.
8
The supply-side response is to band
but our task is to ask the next question. How will this benefit the so-called occasional clients’ design needs? Will it subordinate appropriate
9
Evolving an appropriate language for design quality
10 1
client-centred innovation to the more organised
2
and powerful supply-side goals of the
We concluded that there is an urgent need to
3
designer/constructor/maintainer chain? Private
strengthen, and where possible re-establish,
4
Finance Initiative, Design Build, Finance and
sectoral wisdom. The disinterested character of
5
Operate and, most recently, LIFT, all herald this
this requires an appropriate independence from
6
integration process. What is missing as yet is
Treasury-driven criteria or supply-side
7
the independent exploration of the brief, setting
blandishments. The remote academic model is
8
appropriate goals and seeing they are held to
not an adequate alternative. All parties need to
9
and indeed improved on. In its first phase, for
be brought to the table and informed by a
20
example, the massive commitment to PFI
robust and appropriate value system. How is it
1
hospital building demonstrated the rush to
to be modelled?
2
conservative design, often at a very early stage
Is the energy apparent in Building down
322
of the procurement route, with perceptible
barriers (see Chapter 14) matched by the
4
long-term social costs such as inflexibility, the
establishment of Driving up quality held in
5
loss of passive therapeutic values, repetitive
briefing caucuses who view the sector’s
6
solutions (Cole, 1997). This generated a
requirements in detail? Building performance
7
reaction, and we welcome the realisation that
hinges on a sustained grasp of detail as well as
8
good design adds value through functionality,
broad strategy.
9
whole-life costing, service enhancement and
Values articulated at evidence-based,
30
aesthetics (Treasury Taskforce, 2000). Of
pragmatic level, can transform cost or
1
particular note is that a whole policy change
programme dominated values. Assimilation of
2
has taken place without research to underpin it.
complexity is the hallmark of civilisation. The
3
challenge is to grasp the articulation and
4
directing the effective design agenda away
interdependence of the different criteria – and
5
from the ostensible user goals of the project
to do this we need a wider language which
6
may seem obvious but it illustrates that building
emphatically includes the rich options released
7
projects are a cocktail of competing ingredients.
by wise, informed procurement.
8
This example of powerful interests
We recommend that research disinterestedly
Wisdom is little mentioned in the
and courageously examines all ‘inhibitors’ to a
9
excitement to praise innovation. This tendency
better designed environment.
40
has shaped Egan initiatives and, we suggest,
1
Research input is needed to provide
reflects the covert agenda that structural change
evidence for productive briefing informed by
in the construction industry is the driving
innovation and thorough familiarity with past
motive. The proper locus of wisdom and
experience. The fracturing of state agencies and
innovation is the research departments of
major enterprises into bought-in consultancy has
universities. Are they fulfilling this role?
seen a haemorrhaging of practical experience
Innovation is too often confused with achieving
2 3 4 5
611
141
Designing Better Buildings
competitive advantage through product
future characterised by freedom is emphatically
differentiation. A necessary change without
plural. Its expression is diversity. The
doubt, involving consolidation, the driving out of
acceptance of this and the concomitant
waste, process alignment, restoration of
necessity to handle, enjoy and resolve conflict
reasonable profit levels and the elusive promise
cannot be delegated. Hence, the urgent need to
of capital investment by a notoriously capital-
educate design and construction professionals
light sector. If we simply wait in a naive way for
into their civic responsibilities, which lie beyond
the intellectual fruits of this future tree to
the single project service model.
appear the results can be predicted. While
Valuing design requires us as specialists
alleviating the public purse of the burden of
and experienced knowledge holders to
thinking ‘for’ the industry that does not fund its
contribute our gifts appropriately. Society’s
own thinking, the fruit will be supply-side
investment in the often extensive training of
thinking re-established at a higher (more
construction professionals is significant.
modern) level with no guarantee that this will
Research is urgently needed into the barriers to
benefit the wider stakeholders – clients,
this rewarding resource reaching the public, the
occupiers and the general public. Poorly
occupiers and the clients.
conceived system buildings of the 1960s remain a testament to supply-side partnering between
Learning from experience
government and construction suppliers. It is incumbent on clients to develop
We asked what cultural and practical initiative
measurement and satisfaction criteria. The
can catalyse these changes. A continuum of
Confederation of Construction Clients initiatives
evaluation from inception to finished product is
(see Chapter 2), among others, are welcomed
required. However, post-occupancy evaluation is
by the Task Group; however, will this include
the key, because it looks at how things are and
the occupiers’/employees’ interests? Can
not how they might be. It serves as a corrective
private interest fund the wider public demand
to ‘remotely representative’ design – second
for a better quality built environment? The
guessing outcomes and ignoring lessons of
market model can sustain its own values.
buildings in use. The creative acceptance of
Those it cannot directly engage with (in the
wisdom and innovation empowers the
business cycle) it leaves to government. Are
occupiers/clients. The rigorous analysis of how
socially and ethically centred professional
buildings actually work, establishing evidence,
consultants and designers capable of standing
measurability and an accessible language for
in for these orphaned values?
this, is the necessary complement to the well-
In this brief survey we indicate that
developed synthetic capacities of architects and
latent and explicit values constantly drive the
designers. There is a real opportunity here to
agenda for the built environment. People often
renew the strength and purpose of architectural
dismiss this as politics and turn away to their
culture and its academic base, and give context
preferred technical or special area of interest,
and direction to its research capacity. The splits
competence and identity. Indeed, it is politics in
in the industry and its knowledge base are
the original meaning of the term – the
dysfunctional and hinder the flow of value-
management of civil society.
generating capacity in its widest sense. Our argument and recommendations are not aimed
The challenge of pluralism
to neaten up or codify what is, and always has been, a fantastically rich human and social
One of the most difficult inheritances of state-
activity. Rather they aim to welcome the
focused public construction is the expectation of
complexity of weaving the strands into a more
monolithic value. The current situation and any
sustainable fabric. As any successful briefing
142
Giles Oliver
and design process demonstrates, this is the
needed to identify effective means of
111
real Holy Grail (if there must be one) in the
developing this in both new and existing
2
deeper sense that the vessel is pervasive,
members of the industry. The tasks are
3
inexhaustible and nourishing.
interdisciplinary, and the impacts on our
4
designed environment diverse and many-
5
flow of enriching opportunity and innovatory
layered. Specialist mind frames are ill-equipped
6
encouragement from those best placed to offer
to address this reality. We argue that research
7
their gifts – engineers, architects, landscape
models must incorporate in every stage of their
8
architects, constructors, facilities managers and
development the whole spectrum of impacts.
9
creative artists, urban designers – the list can
This could be called a genetic responsibility for
10
be extended and daily breaks these limits.
research at this time.
1
However, this social creativity requires a
Otherwise, the conservative and localised limitations of occupancy-based experience will confine feedback to what already does or does
2 3
International comparison
4
not work. How best to do this? Provided that we are alert to cultural identifiers
Taking time: off-line or up front? Examples of penetrative questioning and empowering enquiry need articulating and modelling. Social science skills are required, but remodelled to elicit latent creativity. Sometimes designers respond too fast, which is why a chord is struck by the Japanese example of listening and debating at length before committing to a form or product. They are seeking understanding, not knowledge alone, and investing time in this process. Similar benefits can be seen in the European habit of talking at length before drawing conclusions.
to prevent idealisation of fragmented aspects (for example, Japanese house building must be situated in its cultural context) a great deal can be learnt from regular international comparative studies. Architectural culture is open to this as
6 7 8 9 20 1
is engineering, within their own disciplinary
2
visions. The challenge, and it is primarily a
322
European one for the UK, is to integrate a wider assessment of other built environments. Urban design is currently strongly influenced by
4 5 6
this enriched perspective (Barcelona, Urban Task Force) and draws on growing support from
7
popular experience of travel and emerging
8
multiculturalism.
9 30
Nissan’s UK COGENT initiative, aligning forty key suppliers, took several years of patient and
5
1
A framework for balancing needs
persistent discussions. Project culture fears this
2 3
time-consuming method, but suffers in the
Our practical restatement of design philosophy
4
realisation stage. ‘More time for design up
is an argument, a proposition that deserves the
5
front’ is a vital slogan. ‘Up front’ is often the
strongest testing. Our intention is not to
6
nearest a construction project gets to the
contribute a new dogma or a further
7
celebrated ‘off-line’ of manufacturing and
burdensome set of tests, but to release
8
despite its limitations should be strongly
creative energy dammed up by redundant
9
encouraged and the benefits broadcast.
frameworks, most of which are sustained
40
internally in the minds of those best placed to
1
skills this process calls for are already widely
reducing them. The importance of recognising
2
acknowledged as deficient within conventional
the collective character of professional
3
construction culture. We found too little of this
knowledge, practised by individuals, permits
4
in the educational frame of construction
initiatives to take place at a number of levels –
5
professionals, a deficiency that also directly
individual continuing professional development
611
relates to the gender imbalance. Research is
(CPD), institutional reform, interprofessional
The listening, learning and reflective
143
Designing Better Buildings
debate. The public dimension will alter through
exempt. We would suggest that client-centred
post-occupancy evaluation until it is no longer
and occupier-centred design is marked by
an exceptional enquiry but a civic habit. We
growing respect between all players – teams
should recall that the empowered client, user,
and users, and in this construction genuinely
occupier and passer-by are one and the same
reassumes its proper place in the civic fabric
person at different times of day!
we all create.
In placing such emphasis on postoccupancy evaluation, we are aware of the argument against its use as a universal
Acknowledgement
mechanism of assessment, namely that the general public will not possess the same
I would like to acknowledge the support and
sensibilities. The needs of an unemployed
encouragement of my co-authors in the Task
youth are such that aesthetics might be very
Group who allowed me to frame our collective
low on his priorities. Fortunately for us a lot of
concerns and insights. I also commend the
work has been done to understand this
CRISP Executive which originally raised the
hierarchy of needs. Maslow’s work on the
question of design research in 1999 and
hierarchy of need allows us to take into account
patiently and enthusiastically supported our
higher aspirations while at the same time
work, despite the expanded agenda. CRISP
attending to basic needs. His research suggests
continues to provide a unique (in the UK)
that values are constant but interpretation may
environment for such challenging and strategic
be variable and dependent upon one’s situation
thinking from practising professionals in the
at any point in time. The image we found
industry.
exceptionally useful was a restatement of the Maslow pyramid (Figure 12.2) in which use
Note
values are foundational for the presence and construction of less measurable but nonetheless essential values. It is natural that priorities will vary between different interest groups, sectors and timescales. This work provides us with a
1
The popularity of Design and Build in the 1970s and 1980s, with its offer of cost and programme certainty, has only been tempered by the experience of significant loss of control over quality (in housing, higher education, etc.). The determination to retain certainty and quality characterises many current initiatives, not least the Task Group’s enquiry.
backdrop for researchers to interpret and balance those needs. Such a model, which implies no exclusive hierarchy, dignifies and
References
locates the efforts of the diverse players currently active within the built environment. Potentially we can recover the intellectual and aesthetic capital that has been fragmented. It does require testing and perhaps remodelling in a dynamic manner to express the non-hierarchic and plural experiences. In this we return to a core theme of our study, which is the call for respect for people’s needs and skills. The poisoned legacy of an adversarial construction industry is a pervasive lack of respect, often class-ridden, from which design and construction professionals are not
144
Cole, J. (1997) ‘Design Quality and the PFI’, PFI Quarterly Journal. CRISP (1999) Acquiring Knowledge, Developing Tools: CRISP strategic priorities 1999, London: CRISP. Macmillan, S. (2000a) A Review of Current Industry and Research Initiatives on Design, CRISP Consultancy Commission 99/5, summary and full review available from the CRISP website www.crisp-uk.org.uk. Macmillan, S. (2000b) Report of the CRISP Design Task Group Workshop Proceedings, CRISP report 99/18, available from the CRISP website www.crisp-uk.org.uk. Oliver, G. (2000) Capturing and Developing the Value of Good Design, CRISP Design Task Group Report, available from CRISP website www.crisp-uk.org.uk. Treasury Task Force (2000) How to Achieve Design Quality in PFI Projects, Technical Note 7, HM Treasury, available on the web at www.treasury-projects-taskforce.gov.uk
Chapter 13
111 2 3 4
Flexibility and adaptability
5 6 7 8 9
Adrian Leaman and Bill Bordass
10 1 2 3 4 5 6 7 8 9 20 1 2
This chapter is about design quality from the
For an up-to-date list and the opportunity to
322
perspective of post-occupancy evaluation
download some of these, please use
4
studies. We deal with the rather elusive
www.usablebuildings.co.uk.
5
concepts of flexibility and adaptability which
The Probe findings are primarily based
6
should be an integral part of design quality
on detailed analysis of technical and energy
7
debates, but rarely feature explicitly.
performance, together with occupant feedback,
8
and backed up by contextual and observational
9
post-occupancy studies. We also include
work. Probe does not include benchmarked
30
findings from other building studies which
studies of cost, aesthetics or space
1
we have carried out, but these are not in
efficiency/utilisation.
2
We draw upon the Probe series of 1
the public domain, so the buildings are not
4
exploring some of the implications for design
5
that we have discovered in our performance
6
studies. We do not attempt here to give
7
detailed examples – that is a project for the
8
future. We are looking for some of the main
9
lessons which we draw from our observations
40
the original building studies, twenty-one in
so far. These – seven in all – are in the last
1
all. Each of these has a short section on
section.
2
There is a growing body of literature about Probe, so it is possible to follow up some of the examples and references used here. It includes:
implications for design; • •
3
flexibility and adaptability as a theme for
named.
•
This chapter uses the concepts of
Everything that we are trying to say here
3
articles based on strategic findings from
should be relevant in some way to design
4
Probe, another seventeen;
decisions, however, we are not concerned only
5
third-party rejoinders, seven more.
with design, but rather with the total building
611
145
Designing Better Buildings
system that results after handover and
Evidence from studies of buildings in
occupation. This includes, for example, usability
use shows that flexibility/adaptability are
and manageability (which, sadly, are usually
inextricably linked with building technology and
absent from mainstream discussion about
its manageability. How well a building functions,
design), environmental impact, and reference to
for example in terms of occupant comfort and
the underlying social and technical changes
energy efficiency, seems to be just as much, or
affecting buildings, their location and
even more, about technology-management
procurement.
interactions than design alone.
We are conscious that the terms
Figure 13.1 sums this up. From the data
‘design’ and ‘quality’ are both abstract and
we have so far, the best performing buildings
profound (taken separately and together) with
are either Type A or Type D: that is briefed,
different meanings for different players. For
designed, constructed, used and managed with
example, unlike architects, building users are
an upfront mandate to deal with technological
frequently concerned only incidentally with the
complexity and manageability. The best
fine points of aesthetics. They have a much
buildings have either:
more practical bent. ‘Will the building allow me to carry out my tasks to the best of my ability?’
•
Realistic assessments of their technological
‘Will it get in the way of what I have to do?’
complexity combined with appropriate
‘Will it make my life easier?’ To users, a good-
levels of management and maintenance
looking but impractical building will not win the
skills to cope with the inevitable
day.
consequences, for example, Tanfield House We also frequently use the word design
(Bordass et al., 1995); One Bridewell Street
in tandem with management. We draw on Bill Allens’s aphorism, slightly adapted:
(Energy Efficiency Office, 1991); or •
Minimised technological impacts, by making
‘Building research should never be more than
things simple and self-managing where
one step away from a design or management
reasonably possible (for example, Wood-
decision.’
house Medical Centre (Standeven et al., 1996); the Elizabeth Fry Building (Standeven et al. 1998a). As technological side effects
The myth of self-managing flexibility
are usually also environmental impacts (Tenner, 1996; Weizsacker et al., 1997) this makes environmental sense as well.
13.1 Technologymanagement interactions
One of the most common requirements for a modern building is flexibility. Clients almost
Technological complexity
always want it and designers usually say they
Higher
Lower
Effective, but often costly
Rare
Type A
Type B
can deliver. But it is all too easy to put a gloss on flexibility/adaptability issues and forget the downsides. We obviously need more flexible
Higher
buildings, otherwise they may not meet occupier needs and quickly become obsolete, Management input
but: •
Will they be too complicated?
•
Will the occupants like them?
•
Will they require too much routine effort?
•
Can they anticipate the unforeseeable?
146
Risky with performance penalties
Effective, but small-scale and restricted uses
Type C
Type D
Lower
Adrian Leaman, Bill Bordass
Unfortunately, many buildings (our data are
111
performance at concept design stage);
2
Make sure the right people ‘own’ the
3
consequences of technology-driven complexity,
problems (for example don’t expect the
4
usually without adequate management
managing agent to programme the system
5
resources to do it.
to meet the changing needs of individual
6
tenants);
7
Seek robust, generic solutions – (see the
8
‘safe territory’ area of Figure 13.2);
9
Consider adaptability (long-term adaptability
10
In reality, management resources are limited.
may be a better and most cost-effective
1
Supposedly flexible systems can become
way of meeting unforeseeable future
2
changes than quick-fix flexibility);
3
Have contingency planning strategies
4
and pervasive that it is difficult to alter them or
(especially important during periods of
5
insert additions without major surgery.
volatile technical and environmental change
6
when shifts in one critical parameter can
7
mainly from Britain, but this applies worldwide) are Type C, that is, barely coping with the
•
Unmanageable complexity is the commonest source of difficulty. Often systems
•
are sold as ‘flexible’ and ‘fit-and-forget’; by implication seeming to require no extra inputs.
•
obstacles to adaptability; for example, where ‘flexible’ servicing systems are so congested
•
Therefore it is prudent to: •
lead to cascading effects elsewhere – for
8
Avoid fantasies and wish lists (for example
example, the potential to switch from air
9
leading future occupants to think that
conditioning to mixed-mode or natural
20
automation in the new building will be the
ventilation);
1
Try to minimise downside risks, especially
2
in areas where nobody sees them (for
with the performance of obviously critical
322
example leaving detailed design of lighting
systems like air-tightness of the building
4
controls to the contractor);
fabric (often leaky in the UK, creating
5
Not rely too much on performance
unwanted comfort and other side-effects)
6
specifications (as Alex Gordon said: ‘Do not
or window design in naturally ventilated
7
be surprised if you get a rubber tube with a
buildings (see Standeven et al. 1998a;
8
clamp on the end when you wanted a tap.’);
Bordass et al. 1998).
9
answer to everything), or parking problems
•
13.2 Safe territority (after Chapman, 1991)
example over-optimistic modelling of energy
•
•
30
Not expect more of the building than it can reasonably be expected to deliver (for
Table 13.1 summarises some of the side
1
effects as they commonly occur in offices. Two
2
vicious circles result.
3 4
Actual performance Deviation from best result
•
Safe territory
Err
or
rat
it ew
hn
a orm
lu
s er
Ov era ll p erf orm an ce
Complexity of system
•
Complexity trumps manageability: To avoid
5
altering the building in use, one asks for it
6
to be flexible. Designers respond with over-
7
complex systems which, in use, demand
8
management time. If not enough resources
9
are devoted, or if the response is not fast
40
enough, failures occur directly or indirectly.
1
These affect staff satisfaction, comfort,
2
health and productivity; and nearly always
3
with adverse environmental impacts.
4
Disease claims to be the cure: Enough time
5
and effort is spent on managing the
611
147
concentrate on their core
business.
management and BEMS
operation. Professional
Lights switched off when people
absent.
Occupancy-sensed
lighting in offices
Lighting
house control of operation.
requirements or retain in-
Tighter contractual
it, or for passers-by.
routes separately.
Control lighting of circulation
the feedback loop!
tend to occur. Don’t outsource
out-of-hours when anomalies
Third parties often not on site
manual OFF switches If possible.
convenience. Also include
required for safety or
when occupant does not need except where lighting is
Lights switch on unnecessarily Include manual ON switches,
run generously, wasting energy
well understood, so systems
environmental services not so
Business requirements for
buildings.
may not be fully familiar. Local local decisions on overrides etc. overrides in multi-tenanted interventions more difficult.
More load for operator, who
information provided.
Leaves occupiers to
service
design options to avoid fantasies.
Careful discussion of brief and
sacrifice adaptive opportunity.
can be very irritating. Try not to
Imposition of automatic control
Comments
Don’t over-centralise. Allow for Particularly important to have local
and human systems.
integration between physical
More realism. Better
facilities.
Include occupant override
Possible solution
Better control and management
Outsourced facilities
Increased BEMS control
systems. Still requires some
time. alterations.
look after the additional
to make alterations from time to
More management input to
Less management input necessary
provide added ‘flexibility’
management. More complaints.
conditions.
Increase technology to
Increased dependence on
lights etc. can provide optimum
and energy efficiency
Revenge effect
Reduced occupant tolerance.
Intended consequence
Revenge effects: examples for offices
Improve comfort provision Automated windows, blinds,
General
Measure
Table 13.1
level when daylight fades.
Increases artificial illuminance
level when daylight is sufficient.
Reduces artificial illuminance
High intensity discharge
Full fresh air systems.
cooling capacity.
Generous provision of
Displacement ventilation.
HVAC systems:
Lighting to suit VDUs.
lighting.
Improves air quality.
internal gains.
Deals with possible increases in
Reduces cooling loads.
Reflected glare minimised.
Efficient point source.
occupants.
increase brightness to the
Try to leave adjustments to
lights out’ facility at the exit.
more humidification likely.
Increases heating loads and
cause discomfort.
operate inefficiently and may
Oversized systems can
Increases air tempering loads.
Dreary-looking environment.
particularly restrike times.
to extended run-up and
including latent.
consider heat recovery,
Avoid over-ventilation and
low capacity.
effectively and inefficiently at
systems which work
Contingency planning, or
Heat recovery.
Added wall-washing etc.
lighting.
or substitute fluorescent
Run for extended hours owing Use instant restrike ballasts
on inadvertently.
provide heating or cooling.
Don’t operate ventilation just to
Cleanliness may be more important.
management.
Needs care in design and
heat.
avoid recovering unwanted
Minimise parasitic losses and
Uplighting also worked well.
brightness.
run up to reasonable
can also take some time to
Compact fluorescent fittings
circulation and safety lighting.
should only activate
The switch at the entrance
by reflections.
Photocells sometimes confused
sensing only may be preferable.
Include local override switches. Local manual control plus absence
Difficult to switch off lights left Absence sensing or ‘last out–
reasonable level.
Bring on at a low but
presentations etc.
Lights come on only when required. Can’t switch lights off for slide
Local switching of lighting. Greater responsiveness to need.
lighting.
Automatically dimmed
lighting meeting rooms.
Occupancy-sensed
111
2
3
4
5
6
7
8
9
10
1
2
3
4
5
6
7
8
9
20
1
2
322
4
5
6
7
8
9
30
1
2
3
4
5
6
7
8
9
40
1
2
3
4
5
611
Designing Better Buildings
A crucial question is where to place the
systems but the cost of looking after systems intended to provide flexibility may
needed, but seemingly (though not necessarily)
exceed those of adapting a simpler building
costly, redundancy. Is redundancy best located
to meet new needs as they arise. As
in the structural fabric (to guarantee structural
demand is relentless, so systems originally
integrity and weather-tightness), building
intended to be flexible may even obstruct
services (to cope with all conceivable demand
the change that is required, and may prove
fluctuations), extra space (to accommodate
very ineffective indeed as they become
growth and change), lower densities (to give
obsolescent.
managers and occupants more degrees of freedom) or what? We are looking for systems which successfully meet demand, given
Leaving elbow room
different requirement profiles for users, managers, owners, developers and designers
Flexibility is one way of dealing with uncertainty
within contexts that are in constant flux. This implies strategies which go
and the vagaries of change, but often unpredictable changes defeat flexibility
further than fit-and-forget technologism or
strategies. Some of the more notorious
short-termism. We have found Figure 13.3
occurred in the UK in the 1980s. They were
useful here. The diagram has physical/
driven by sales-inflamed scares about
behavioural and context-free/context-dependent
accommodating new technical equipment and
axes, giving equal weight and importance to all
the unthinking adaptation of buzzwords and
four quadrants. Four strategies are implied:
quantified but poorly-researched standards by letting agents. The perceived need for extra cabling and air conditioning led to gross over-
1
supposed to work only in the background,
capacity of heating, cooling and ventilation plant
with hardly any intervention);
(Parsloe, 1995) and fewer degrees of freedom with floor-to-ceiling heights (because of raised floors and ceiling voids). Added complexity of
Make invisible (those things which are
2
13.3 Strategic imperatives
Make usable (things needing regular attention and/or interaction);
plant, ducts and controls – with less available Physical
volume for air – created many nasty side effects for occupants as well (Wilson and Hedge, 1987). Successful flexibility/adaptability
A Fit and forget
B Implement and manage
Make invisible
Make usable
Systems operating in the background, normally without intervention
Systems with regular attention and/or interaction
Policy, legislation, ethics and value systems
Adapatation to unpredictable change and individual needs and competitive threats
Make habitual
Make acceptable
Implement and internalise C
Risk and freedom D
strategies anticipate how contextual factors change over time. However, the reverse is one of the reasons why US building strategies are copied worldwide (van Meel, 1998): globalisation involves destroying context in order to achieve uniformity of product and a form of market flexibility. Its advantages in
Contextfree
terms of appropriateness, use–value and longterm adaptability and environmental responsibility are more questionable. There are economic advantages – standardisation being one – but ultimately it produces cultural and environmental revenge effects which may well be unsustainable.
150
Behavioural
Contextdependent
Adrian Leaman, Bill Bordass
3
Make habitual (formal and informal rules
Our expanded version is in Figure 13.4,
111
which help with safe, comfortable and
an adaptation from Brand (1994). Systems at
2
smooth running);
the top of the list – site, strategy, shell – tend
3
Make acceptable (things which are not
to set constraints for things lower down –
4
prescribed and covered by the rules, but
services, for instance, are determined to some
5
allow scope for individuality, innovation and
extent by the shell. Things at the top also tend
6
change).
to be longer lasting – centuries in the case of
7
some sites, compared to minutes for the
8
Buildings which are properly flexible and/or
position of stuff on desks. The diagram has
9
adaptable will have included consideration of
many virtues, not least of which to emphasise
10
provision for all four somewhere in the briefing,
Russian-doll-like complexity – with systems
1
design and operations thinking, raising issues
apparently nesting inside each other – and the
2
such as usability, innovation, habit (that is,
time frequencies of changes. The implication is
3
cultural norms in the organisation and user
that things at the bottom are more flexible, and
4
etiquette), safety, security, risk, value and
perhaps more adaptable than those at the top,
5
uncertainty.
and therefore easier to change. However, this is
6
not necessarily so: a transportable building can
7
push as many things as possible into quadrant
be moved to another site, shells and structures
8
A – seek ‘fit and forget’ – and leave the
can be adapted or replaced. Conversely some
9
consequences of leakage back out into the
arrangements can be impossible to change
20
other three quadrants for someone else to
because of their interlocking nature.
1
4
However, the modern tendency is to
Modern businesses are increasingly
worry about. Unfortunately for us all, side-
2
effects cannot be forgotten even if they are not
demanding much greater flexibility throughout
322
immediately foreseeable or includable in cost-
the hierarchy, trying to give themselves greater
4
benefit equations or risk-value payoff
degrees of freedom. Some of the symptoms
5
calculations. Examples of some of the
are:
6
consequences are given in Table 13.1.
7 •
Dependencies and interactions The temptation to use technology as a get-outof-jail-free card is often irresistible to designers and managers when faced with problems requiring quick answers. But buildings are
•
Rental lease periods reduced from 25 years
8
to sometimes 5 years or less;
9
The rapid rise (and volatility) of businesses
30
which offer high quality, very short-term,
1
office accommodation for rent in major
2
cities around the world, and growing
3
investor interest in fully-serviced suites for temporary or long-term occupancy;
5
interdependent systems with many hierarchic layers, a property which introduces
6 7
Adaptation?
dependencies and interactions, often unwanted, hidden or unforeseen. The shell-scenery-set diagram introduced in the 1970s (Duffy and Worthington, 1972) neatly summarises the hierarchic nature of buildings and their subsystems and can be helpful in separating variables and developing adaptability strategies. However, in the wrong hands such layering can actually inhibit strategic integration.
4
8 Site Strategy Shell Structure Skin Services Space plan Scenery Sets Stuff
9 40 1 2 3 4 13.4 Hierarchical ‘layering’
5
611
151
Designing Better Buildings
• •
More stress on property and estate
areas of professional responsibility with no-one
strategies;
owning the problem. Some of these gaps turn
Renewed interest in briefing, and further
out to be crucial for occupants’ welfare, for
consolidation of business and design
example, the stability of the indoor environment
targets.
and opportunities to change conditions quickly when required. Anecdotal evidence from
Strategies based on shell-and-core or space
Scandinavia and the Netherlands indicates that
guidelines for space planning are no longer
under global market pressures their previously
sufficient. Space plans must not cut off options
better-integrated design cultures may be forced
for new layouts. Potential for moving cores if
down this course as well. Key considerations are:
necessary may even be required. Flexibility at one level does not guarantee flexibility elsewhere – often the
•
designed around their space plans often
Develop clear strategies for flexibility and adaptability and keep them under review.
reverse. For example, buildings which are •
Identify risky constraints at each level of
introduce onerous constraints. A fixed furniture
the hierarchy and explicitly flag them up for
system may offer occupants no options to fine-
designers or managers, making sure that they are fully ‘owned’.
tune their seating position and furniture so that they can try to mitigate adverse effects of, say,
•
Unless there are circumstances which
glare or low winter sun. Any changes may have
require specialised optimisation, do not
to be carried out by the facilities managers. In
allow any one issue to dominate the
one instance, external consultants had to be
others, for example, the space plan or
called in every time the furniture needed to be
optimising the irrelevant servicing considerations (see Bordass, 1992).
moved! It is usually better to avoid dependency of this sort – occupants are capable of making
•
Allow for changes at any level, including
these minor changes for themselves, they are
those that may be seemingly unthinkable,
happier and problems and costs for managers
like the shell and structure but don’t get
are avoided. However, the trend is towards
carried away – robust simplicity is also
greater dependence, not less. Occupants are
most important; and do not forget that
increasingly having control and adjustment
many parts of the building may be appropriately permanent.
options taken away from them. This, in turn, places a higher burden on the technical and
•
Flexibility can be hindered if options are
management systems that are supposed to
restricted further up the hierarchy. This can
provide these services – and makes them more
be specially vexing for certain types of
vulnerable as well. This is why occupants say
building services, for example, building
they are less comfortable in buildings that may
cores obstructing the best routes for ducts,
offer relatively good internal environmental
or adaptability thwarted by lack of
conditions, but have less perceived control
consideration of site constraints.
options; in the jargon, fewer ‘adaptive opportunities’ (Brager and de Dear, 1998). In Britain, commercial and professional
Different standpoints
pressures have tended to divide and rule so that integration between architects and
Flexibility and adaptability take on different
engineers can be minimal sometimes, even in
meanings depending on your standpoint. Users
so-called integrated design practices. Parts of
and occupants often want short-term flexibility,
the design can easily fall in the gaps between
answering specific local needs as fast as
152
Adrian Leaman, Bill Bordass
possible. Facility managers may be more
photovoltaic building, Sunderland, UK) while
111
concerned about occupant control and speedy
gambling that accommodating new
2
and cost-effective changes in furniture layouts.
constraints (the photovoltaic wall) does not
3
Designers may think about possible image
compromise other considerations (such as
4
changes, and certainly issues like capacity,
office layouts forms);
5
Fit suitable strategies to prevailing
6
Corporate managers may be more concerned
circumstances, perhaps giving priorities to
7
with how easily they can sell or re-let the
costs in use, manageability, occupants’
8
building if they no longer need it and so get
needs, and taking a more pronounced
9
locked in to property market criteria whether or
demand side perspective.
10
turnover, space fit, densities and layout types.
•
not these actually benefit the users. All of them
1
will want their needs to be met reasonably
Our view is that attention to the demand side,
2
quickly, with as little fuss and cost as possible.
minimising environmental impact and carefully
3
reviewing the extent to which generic solutions
4
the action as close to the point of demand as
are appropriate will yield effective results in the
5
possible. The problem, though, is that
longer-term; though it may take some time for
6
requirements conflict and it is not obvious:
market valuations to catch up.
7
•
what the needs are, especially in the future
– and resolving conflicts between them. This
9
when contexts may subtly change;
implies more emphasis on:
20
For any of them, it makes sense to bring
Greater account must be taken of needs
•
where priorities lie;
•
where risks are greatest.
1 •
brief taking;
2
•
future business and organisational
322
scenarios;
4
social, economic and technical changes in
5
the background;
6
Specialised buildings tend to become obsolete fastest, while bespoke buildings – specialised or not – are anathema to valuers and letting
•
agents, so stifling innovation. On the other hand there are still many spectacular examples
8
7 all of which give further colour to demand.
8
of unlikely function changes inside seemingly
9
specialised structures, particularly if they have
30
become respected parts of the landscape
Bringing action closer to need
1
(Brand, 1994). Does the designer: • •
•
•
2 Bringing action as close as possible to
3
perceived need while minimising the need for
4
Play safe with industry norms (for example
vigilance at other levels is usually an important
5
British Council for Offices, 2000);
objective. At lower levels of the building
6
Opt for more generic, context-free
hierarchy this can be obvious. For instance,
7
approaches, gambling on accelerating
when you switch on a light (action) you want
8
trends towards convergence of function (for
the response to give you the result you require
9
example offices and laboratories becoming
(need). The faster the need is met by the
40
more similar);
action, the better. Any extra thought required (if
1
Take a longer-term view, attempting to
the switch’s operation is unclear), involvement
2
combine this with emphasis on lower
of others (for example ringing a helpdesk) or
3
environmental impacts;
delay in response adds unnecessary complexity,
4
Place greater faith in promising new
inefficiency and cost. When action does not
5
technology (for example Doxford
meet need, the system is often said to be
611
153
Designing Better Buildings
inflexible or inefficient. When it is difficult to
buildings in a more static market. And how
change, it has poor adaptability.
can we make better adaptive use of the
However, things are not so
buildings we already have, a significant
straightforward as you go higher up the building
portion of which (particularly from the
hierarchy. Lags between demand and supply
1950s to the 1970s) are now unloved not
(the demand for space may not be in the same
because of a lack of potential but a lack of
place as spare capacity), geographical inertia
imagination, fashionability and market
(the tendency for organisations to stay rooted
value?
to a familiar area) and longevity (only about one
2
Know your timescales
per cent of, for instance, the UK building stock
We define flexibility as primarily about
is renewed every year and market lock-in
short-term changes and adaptability about
[Bordass, 2000]) all conspire to create
less frequent but often more dramatic
mismatches and inefficiencies. These
ones. Try not to confuse the two: while
inequalities drive fluctuations in property
ideally they are complementary, in practice
markets, giving them their peculiar character
they can easily conflict. For example, it is
(Investment Property Databank, 1994). With
not unusual for air conditioning distribution
individual buildings, it is unusual to find a
systems installed to improve flexibility to
perfect fit between preferences and the
also physically obstruct adaptations one
facilities provided – buildings which in the eyes
would like to make.
of their occupants, owners, managers and
3
Hidden costs
designers are ‘just right’. But ‘good enough’ is
Flexible concepts for buildings often
usually sufficient (‘satisficing’ rather than
provide fewer physical obstacles,
optimising). Beyond this, if the building lacks
particularly to any space plan which fits
adaptability it may be replaced or abandoned.
within the boundary conditions. However, the downside is often much higher dependency on technical and management
Conclusions, with contradictions
infrastructures than anybody had anticipated. In addition, the technology has often proved to be less flexible and more
Without being too theoretical or technical, what
prone to obsolescence than one had
are the main lessons to be learned from this?
thought, viz: the amount of nearly-new
Seven emerge, but sometimes they contradict
materials and equipment which are often
each other!
scrapped when an office is fitted-out or refurbished.
1
154
What do you really need to change?
4
Dependency cultures
More uncertainty in the world leads to
Flexibility concepts (for example, deep
demands for more flexibility: but how much
plans), equipment (for example interlocked
is really required, and where? Can simpler,
serviced furniture) and technologies (for
more generic, but adaptable building types
example automated internal environments)
which get some basic things right actually
can deprive occupants of the ability to
prove liberating, not constricting? Is it best
make even small adjustments, causing
to adapt the building, to adapt to the
them to be disgruntled, make more
building, or to change the building?
demands upon management, or both. The
Flexibility of movement within a diverse
costs of this – in terms of the degree to
and fluid property market could make up
which the quality of the building needs to
for some of the shortcomings of individual
be improved, together with management
Adrian Leaman, Bill Bordass
and the expensive support services
111
Agendas for the future include:
2
required – are often ignored, or at best Briefs which are explicit about need, and
3
demands are not met, occupant
try to make hidden assumptions crystal
4
dissatisfaction and lost productivity will
clear for all concerned.
5
Adaptable envelopes and structures, at
6
Hierarchical layering
least in parts of the building which can
7
The strategic ‘layering’ of a building (shell,
benefit.
8
Building shells which are better at
9
selectively moderating the external climate.
10
badly underestimated. But if these
result. 5
services, scenery etc.) helps to avoid
•
•
•
unwanted rigidity by minimising interlocks
Intrinsically-efficient building services which
1
or with different timescales for
adopt ‘gentle engineering’ principles and
2
maintenance, alteration and replacement.
good controls to fine tune the environment
3
However, by excessive reductionism, and
efficiently and only to the extent needed.
4
between elements with different functions
•
Where necessary, ‘plug and play’ supple-
5
dealt with by narrow specialists (like space
mentary components which can easily be
6
planning), it can also get in the way of
obtained, installed, and relocated to alter
7
building services’ provision and capacity.
8
More rounded understanding of future
9
added value, and increase the loads a
scenarios, especially from the perspective
20
building imposes on the environment
of businesses and their progress, and the
1
through unnecessarily wasteful
social, technical and environmental
2
consumption of fuels and materials.
constraints most likely to affect businesses,
322
Generic buildings: tonic or tragedy?
buildings and their locations.
4
the splitting of activities into single issues
•
holistic design and strategic integration. This in turn can destroy context, reduce
6
•
5
Will we benefit most from more standardised solutions or from rich and
6
So what to do?
7
chaotic diversity? We see hope in reducing Consider all types of risks and constraints
8
seeking out more generic solutions which
affecting buildings, not just the obvious or
9
aim to better satisfy the needs of investors,
fashionable ones – acute and chronic,
30
occupants and the environment. How in
short-term and long-term – and work on
1
practice will this differ from the North
all of them.
2
the number of unnecessary variables and
Take a demand-side perspective which
3
approach which tends to destroy context
starts with revealed needs and preferences,
4
and create widely-accepted, competitive,
especially within the immediate context of
5
but often far from optimal, industry
business and organisational requirements –
6
standards?
and work towards more abstract supply-
7
If in doubt, leave it out
side issues, rather than the other way
8
round as has tended to be the case.
9
Think of potential downsides and their
40
to need, and to leave to others the option
consequences, emphasising the thresholds
1
of adding (or subtracting) things you are not
where action meets the point of need (for
2
sure about. Of course, this is not easily
example, the trigger points when people
3
done in a changing world, but nevertheless
become uncomfortable and decide to do
4
it is usually possible to reach some sort of
something about it; or what happens if the
5
verdict.
building becomes too big or small for you).
611
American reductionist, standardised
7
•
•
The essence of adaptability is to invest in the outset in the things you are really going
•
155
Designing Better Buildings
•
Adopt a perspective which treats constraints in a positive way, so that potential bugs become features. Most great designs – especially the most usable – are like this, apparently making insuperable constraints disappear altogether. Of course, they never do; both potential and constraints have been turned to human advantage – the essence of human adaptability and the hallmark of progress.
Note 1
Probe (Post-Occupancy Review Of Buildings and their Engineering) is a research project which started in the UK in 1995 and was concluded in 2002. Twenty-one building studies have been published (20 UK, 1 Dutch) in Building Services: the CIBSE Journal. As well as the original Probe articles, there are many other supporting papers. An up-to-date list may be found on www.usablebuildings.co.uk by following the Probe link.
References Bordass, W. (1993) ‘Optimising the irrelevant’, Building Services Journal, September, pp. 32–4. Bordass, W. (2000) ‘Cost and value, fact and fiction’, Building Research and Information, vol. 28, no. 5/6, pp. 338–352. Bordass, W., Bunn, R., Leaman, A. and Ruyssevelt, P. (1995) ‘Probe 1: Tanfield House’, Building Services Journal, Sep, pp. 38–41. Bordass, W. and Leaman, A. (1997) ‘From feedback to strategy’, Buildings in Use ‘97 Conference: How buildings really work. London, Commonwealth Institute, February 25.
156
Bordass, W., Leaman, A. and Standeven, M. (1998) ‘Probe 13: Charities Aid Foundation’, Building Services Journal, February pp. 33–9. Brager, G. and De Dear, R. (1998) ‘Thermal adaptation in the built environment: a literature review’, Energy and Buildings, vol. 27, pp. 83–96. Brand, S. (1994) How Buildings Learn, New York: Viking. British Council for Offices (2000) Best Practice in the Specification for Offices, London: British Council for Offices. Chapman, J. (1991) ‘Data accuracy and model reliability’, Proceedings of BEPAC 91 Conference, Watford: Building Environmental Performance Analysis Club. Duffy, F. and Worthington, J. (1972) ‘Designing for Changing Needs’, Built Environment, vol. 1, no. 7, pp. 458–63. Energy Efficiency Office, (1991) Best practice programme: Good practice Case Study 21: One Bridewell Street, Bristol, Watford: BRECSU. Investment Property Databank and University of Aberdeen on behalf of the Royal Institution of Chartered Surveyors (1994) Understanding the Property Cycle: economic cycles and property cycles, London: RICS. Parsloe, C.J., (1995) Overengineering in Building Services: an international comparison of design and installation methods, BSRIA Technical Report TR21/95, Bracknell: BSRIA. Standeven, M., Cohen, R., Bordass, W. and Leaman, A. (1998a) ‘Probe 14: Elizabeth Fry Building’, Building Services Journal, April, pp. 37–41. Standeven, M., Cohen, R., Bordass, W. and Leaman, A. (1998b) ‘Probe 16: Marston Book Services’, Building Services Journal, August, pp. 27–32. Standeven, M., Cohen, R. and Leaman, A. (1996) ‘Probe 6: Woodhouse Medical Centre’, Building Services Journal, August, pp. 35–8. Tenner, E. (1996) Why Things Bite Back: new technology and the revenge effect, London: Fourth Estate. van Meel, J. (1998) ‘The European Office: a cultural and architectural enigma?’, PhD thesis, Technical University of Delft. Weizsacker, E, Lovins, A. and Lovins, L. (1997) Factor Four: doubling wealth, halving resource use, London: Earthscan Wilson, S. and Hedge, A. (1987) The Office Environment Survey, London: Building Use Studies.
Chapter 14
111 2 3 4
Managing design and construction
5 6 7 8 9 10 1
Peter Trebilcock
2 3 4 5 6 7 8 9 20 1 2
According to Paul Hyett, President of the RIBA
changing information through the project. They
322
(2001–2003) and experienced expert witness,
may argue that, as the end product will be
4
‘60 per cent of construction claims occur due to
around for a long time, it is far better to make it
5
increased building costs and programme
the best it can be rather than have a second-
6
delays’. Technical failure in designs or
rate product delivered simply to meet short-
7
specification accounts for a further 30 per cent.
sighted timescales.
8
‘No one ever gets sued . . .’ he argues, ‘. . . over an ugly elevation.’
Unfortunately architects often become,
9
quite unfairly in many instances, the scapegoats
30
for contract delays. It is not uncommon to read
1
aspirations for designers and contractors, and
headlines in the architectural and construction
2
success criteria, reinforced by educational and
press such as ‘Overspend row’, ‘Escalating
3
cultural stereotypes, are poles apart. Whilst the
costs’, ‘Fiasco’, and ‘Council close services due
4
architect might be able to control the design of
to cost overruns’. Whilst the sheer quality of a
5
a building, its successful implementation usually
design might win over the public audience,
6
relies upon a host of people from a broad range
those who have to foot the bill and manage the
7
of backgrounds with a wide array of skills.
consequences of poor performance sometimes
8
question whether rewarding such architectural
9
solely by the degree of innovation and leading-
achievements, in spite of poor client
40
edge design employed often focus too much
satisfaction, sends the wrong message to the
1
on design standards. Consequently they will
profession.
2
Unfortunately too often the project
Those architects who measure success
Success in design may be measured by
3
possible minute, often resulting in the late
one set of criteria. Success in construction will,
4
issue of information supplied to the contractor.
no doubt, be measured by another. Yet overall
5
Architects are often criticised for constantly
project success should take into account
611
ponder over the architectural details to the last
157
Designing Better Buildings
aspects of both design and construction.
turn, was to pay the craftsmen and workmen
Unfortunately as an industry we seem to have
for their labours on the ‘large Fabric’. But the
difficulty reconciling the two.
whole future of the work depended upon the
Contractors and subcontractors faced
Queen remaining upon the throne and the
with the pressures of competitive tendering
administration of government remaining in the
focus their efforts on achieving the lowest cost,
hands of the men who approved of the Duke
perhaps relying on the likelihood of claims to
being honoured in the extravagant way she had
enhance their income and profitability. This is
prescribed.
based on the common assumption that
Only too well aware of this, the Duke –
substantial design variations will occur, causing
a man so mean that he had been known to get
overrun and additional costs, and the propensity
wet in a rainstorm rather than spend sixpence
for consultants to issue late and/or incomplete
on a sedan chair – scrupulously avoided signing
information.
any bills, lest his signature should be assumed
The client is not always an innocent
to personally authorise the highly expensive
bystander in this process. Often unrealistic
work. When Wren was called in for an
objectives associated with budget limitations,
independent estimate, he calculated it would
over-ambitious timescales, unrealistic quality
cost £100,000, over twice the sum
aspirations, lack of clear, decisive and timely
Marlborough had been led to expect. The
decision-making coupled with interference in
building was finally accomplished – after
contractual matters may all contribute to
prolonged law suits and actions against over
pressure on the team, causing the quality of
400 persons, to expose the ‘fowl practices of
product to suffer.
builders’ – at a cost of some £300,000 (in
This scenario is not new. The financial arrangements for the building of Blenheim Palace, designed by John Vanbrugh, were not
today’s terms about £21 million), £60,000 of which came from the Marlborough estate. Having dispensed with the services of
very satisfactory. The Treasury was authorised
Vanbrugh, and rarely consulting his assistant
to supply the Duke of Marlborough with
Nicholas Hawksmoor – after all so-called
unspecified sums of cash to hand over to the
architects were, with very few exceptions,
‘Controller of the Works’ at Woodstock, who, in
either ‘mad or ridiculous’ and their ‘very high
14.1 (far left) The Architect as seen by the Builder 14.2 The Architect as seen by the Quantity Surveyor
158
Peter Trebilcock
flights’ had to be ‘kept down’ – the bossy,
Some of the common factors we would
111
demanding and effective Duchess directed the
attribute to the failings are:
2 3
works herself after the stroke and subsequent death of the Duke. She marched about the
•
Inadequate planning
4
works, being ‘extremely prying’ in the words of
•
Unrealistic budgeting
5
Marlborough’s friend, Lord Godolphin and was
•
Information is supplied too late
6
‘perpetually on the watch communicating
•
The information is uncoordinated
7
directly with the Clerk of the Works’.
•
The drawings/specifications have been
8
incorrectly interpreted
9
•
Technical/product defects
10
The scenario at Blenheim has it all: •
Lack of clear payment arrangements
•
Poor choice of supplier
1
•
Cost overruns/inaccurate initial
•
Late changes in information in procurement
2
cycle
3
Apparent lack of cost awareness/care by
•
Risks not managed
4
the designers
•
Inadequate resources.
5
estimates • •
Designers focus on the detail to the
6
apparent detriment of all else
7
•
Corrupt contractors and subcontractors
•
Client interference with contractual
Latham and Egan
8 9
Following the Latham and Egan reports
20
(Latham, 1994; Construction Task Force, 1998)
1
In essence the consequences are the same for
and with clients encouraging more innovative
2
many projects. The common characteristics
ways of team working, the construction
322
being:
industry is beginning to adopt new practices.
4
These include:
5
arrangements.
6
•
The project is late
•
It is over budget
•
team integration
7
•
There are too many defects
•
supply chain management
8
•
The original design is compromised.
•
benchmarking
9
•
lean production
30
•
total quality management.
1 2
14.3 The Architect as seen by the Public
Attempts at improving design management
3
have been hindered by the intuitive and
4
iterative nature of design. However, as design
5
becomes better understood, aided by research
6
into subjects such as process-mapping, it is
7
becoming easier to plan design decision-making
8
with the same rigour as other parts of the
9
construction process. The optimum framework
40
for the team to meet the demands of clients,
1
who view construction as a complex process
2
requiring a high degree of management, is
3
through an integrated and collaborative
4
approach where specialists and subcontractors
5
work alongside designers.
611
159
Designing Better Buildings
In his report Constructing the Team, Sir
the client, the skills and contribution of every
Michael Latham (1994) had two prime
member of the design and construction team
objectives:
will be required. No one is suggesting design quality doesn’t matter. No one is suggesting
•
To reduce conflict and litigation
that cost management is of secondary
•
To increase productivity.
importance either. Both of these issues require attention, and they are not mutually exclusive.
He predicted that, ‘whatever the procurement
Only through thoughtful and considered
route’, the client will expect:
management throughout the design and construction process, will the aspirations of all
1
A clear, direct single channel of
team members be achieved.
responsibility throughout the progress of the work. 2
A supply-side team that has no ‘fuzzy edge’ of liability, is closely integrated and has the
How can multiple design goals be achieved?
same goals as the client-focused delivery. 3
Design flair and cost-consciousness, jointly
It can be argued that in any construction project
achieved by a team assembled at the
the three most important aspects of the design
earliest possible stage, combined with best-
are:
practice buildability. 4
Effective early involvement of specialist in
1
detailed design.
To ensure an imaginative and visually attractive response to the brief
2
To aid the ease, speed, reliability and safety of its construction
Government procurement policy
3
Meanwhile, government has stated its intention
It can be argued that the designers’ objectives
to procure all public buildings by one of three
are best accomplished within a framework of
methods:
total project integration, where the emphasis is
To achieve maximum value and functionality with effectiveness and efficiency in use.
on integrating design into the construction •
Private Finance Initiative
process from concept to operation. This may be
•
Design and Build
through a multidisciplinary team within a single
•
Prime Contracting
organisation, or via a group of individual organisations assembled for a one-off project.
Each of these has its advantages and
Some industry pundits, perhaps spurred
disadvantages, but the overriding common
on by the Egan report, call for attractive and
characteristics for the client are:
efficient buildings to make optimum use of standardised components and off-site assembly
1
A simple point of contact and responsibility
techniques. Thus by using tried and tested
2
Cost certainty
solutions risk should be minimised, speed
3
An integrated team approach.
accelerated and cost-effectiveness maximised. However, we ought not to advocate architect’s
Any exceptions to these three routes will have
design by catalogue. This will stifle imagination,
to demonstrate how better value for money can
limit the range of possible solutions and fail to
be achieved. In recognising the expectations of
harness creative genius. Innovation is not
160
Peter Trebilcock
always more expensive either. But nor are we
become progressively more fragmented due to
111
suggesting designers need to innovate for
the growth in specialisation and complexity of
2
innovation’s sake. There is a balance to be
construction methods and technologies. With
3
struck between innovation by application and
this specialisation, there has been a
4
innovation by invention.
corresponding increase in the number of
5
organisations and people with design
6
provision of buildings which are attractive, make
responsibility on a project. In Wren’s day, the
7
a positive contribution to the environment,
processes and iterative nature of design were
8
represent good value for money, work as they
hidden within a single mind. The task today is
9
were intended, do not injure people in the
to understand and to manage these processes
10
process and represent a responsible use of
across a team of designers. There is a need for
1
resources. The cost in real terms must also go
each contributor to understand and enter the
2
down.
province of the other.
3
In essence our culture demands the
All of these are design issues. So we
4
Design is an iterative process, making
first have to ask the question ‘What is design?’
the exchange of design information quite
5
In essence it is the intellectual task which:
different from that of physical goods in the
6
traditional product-based supply chain. In a
7
•
Starts with conceptualising the solution
product-based supply chain, physical goods
8
•
Develops the means by which the solution
move along the chain with each tier adding
9
can work
value through some manufacturing process until
20
Is completed by identifying in detail how
the completed product (a car for example) is
1
each individual component can be
available to the end-user. The product becomes
2
increasingly complex as it passes through each
322
stage (e.g. by combining standard components),
4
as it is transformed from raw materials into a
5
customised product.
6
•
manufactured/assembled together to form the built solution. In the past there was a reliance on ‘craft’ detailing, in a culture where designers designed, and constructors built that which the designers had designed. As a result the nonintegrated set of players were unlikely to achieve the overall project objectives. However, in the current climate there is increasing recognition that the design and construction of buildings is an integrated process and the supply chain must play a role in developing quality solutions. This was the case with the master stone masons in Wren’s day and is even more important with the more sophisticated building systems available today.
In the case of a construction project, a
7
similar supply chain can be envisaged, where
8
value is added when construction products flow
9
up the chain. Standardised products (such as
30
glass, steel and cement) are combined to
1
provide more specialised components and
2
systems (cladding and air conditioning, for
3
example). The suppliers in the chain will be
4
made up of a combination of design
5
organisations (consultants): contractors
6
(including those with design and/or
7
management specialists); and subcontractors,
8
depending on the method of procurement.
9
As with the supply chain, where
40
standard products are converted into bespoke
1
facilities, solutions in the design chain become
2
increasingly specialised and complex. Standard
3
When Wren designed St Paul’s Cathedral, he
solutions (such as standard design details) are
4
acted as both engineer and architect. Since his
combined to provide more comprehensive and
5
day, the design and construction process has
bespoke design solutions.
611
The relationship of designers to the supply chain
161
Designing Better Buildings
Design chains are concerned with the flow of design information between the
•
To examine, test and challenge existing conventions.
organisations collaborating on a project (Austin et al., 2001). They differ from supply chains in not having information flowing in one direction and material in the other. In design chains
Innovative approaches in practice
information flows both ways. Designers can be found as independent architects and engineers,
I will illustrate some examples where integrated
and within other companies that produce
teamwork has provided exemplary results.
components, assemblies or other systems. The
Some examples occur in circumstances which
need for these designers to communicate
are unusual perhaps even in emergency
effectively in both directions is an essential
situations. Here – as in war – the noble in us all
requisite to achieving success. The
elevates the spirit to participate as team
management of the overall process and the
members resolved to protect and defend the
team are both vital to the project’s success.
common goals and overlook selfish or partisan
There are several facets of management in this context:
interests. Unfortunately in ‘peace time’ we often revert to circumstances where common objectives are secondary behind individual
•
•
Those involved in the management of such
goals. Teamwork integration ought not to be
a process must understand the process of
evident in exceptional circumstances but be the
design.
everyday norm.
There has to be recognition of the breadth of design skill required – some designers will have a broad perspective on the overall building, whilst others may be task-specific
Fast track: Boots Warehouse, Beeston, Nottingham
specialists who will focus on their centre of •
activity.
Following a devastating fire, which destroyed a
To see that project objectives are defined
27,000 square metre warehouse at the Beeston
and communicated to all team members –
Site, Nottingham, AMEC was called in within
they all need to understand how their
five days to assist Boots in the disaster
individual contributions impact on the
recovery programme.
whole. •
An extremely accelerated fast track
To plan how project objectives are to be
programme was initiated to replace the facility
achieved.
with a new fully automated warehouse and
To view and test proposed solutions against
facilities for 400 staff. Unless the factory was
objectives.
rebuilt in time to stock items scheduled for
•
To monitor progress against the plan.
Christmas sales, the consequential losses
•
To react proactively to deviation from the
would be enormous. This sense of urgency
•
plan.
enabled the client to adopt a more dynamic
•
To set realistic time scales for tasks.
approach.
•
To establish mechanisms by which plans,
•
162
One of the key factors for the success
programmes and actions can be achieved,
of this fast track project was the project
reported and monitored.
philosophy. Boots chose an innovative
To develop a framework to involve
partnering agreement, which replaced a
people for their achievements in adding
typically hierarchical project structure with a
value.
flexible team approach.
Peter Trebilcock
a 6,000 square metre, two-storey building and
111
objectives, good communication and prompt
featured an Olympic-size swimming pool, a
2
decision-making, which focused on achieving
double-sized sports hall that could be divided
3
the very tight deadlines, rapid start-up and
into two separate fully functional gymnasia,
4
continuous time improvement.
six squash courts, a weights and fitness
5
suite, changing and office facilities and a
6
cafeteria.
7
This approach featured shared
The critical success factor on this project was achieving a design and construction programme of eleven months, which is significantly less than accepted industry norms.
8
The MOD client identified their key
9
drivers for change. These were to:
10
The programme was achieved without sacrificing quality or cost benchmarks by
•
Improve delivered functionality
1
establishing the following principles:
•
Reduce costs through the project
2
•
•
Improve value for money
3
Co-location of an integrated project
•
Improve predictability of performance
4
management team, made up of Boots and
•
Remove conflict
5
AMEC staff.
•
Improve quality and safety.
6 7
•
Location of core design team on-site.
•
Application of two-stage tendering to avoid
Their objectives – summarised by their project
8
duplication and waste.
title ‘Building Down Barriers’ were:
9
•
To develop an approach to facility delivery
1
based on supply chain integration
2
To demonstrate the benefits in terms of
322
where practicable.
improved value for the client and
4
Positive avoidance of traditional contractual
profitability for the supply chain
5
To assess the tolerance of the approach to
6
the UK construction industry.
7
integration. •
•
Incorporation of work package contractors within the design team, with co-location
•
20
Encouragement of supply chain
disincentives.
•
•
8
As a result the first phase was handed over in eight months with the overall building
Seven principles for Building Down Barriers
9
completed in ten months. The materials
The MOD established a philosophy which
30
handling system was finished one month later.
manifested itself in seven principles:
1 2
1
Compete through offering superior value
3
2
Make ‘value’ explicit: design to meet
4
functional requirement for through-life cost
5
Establish long-term relations with key
6
specialists
7
Involve the supply chain in design and cost
8
to serve as research and development
development – using target costing, value
9
initiatives to inspire project delivery, as part
management and risk management
40
Manage the supply chain through specialist
1
clusters
2
Develop continuous improvement within
3
the supply chain
4
Collaboration through leadership, facilitation,
5
training and incentives.
611
Building Down Barriers: MOD Sports Complex, Aldershot
3 Two projects at Aldershot and Wattishham were identified by the Ministry of Defence
of the Building Down Barriers initiative (Holti
4
5
et al., 1999). Results from these projects have been disseminated, and key success factors
6
fed back into the MOD procurement regimes. AMEC were involved in a sports complex at Aldershot. The project incorporated
7
163
14.4 MOD Sports Complex, Aldershot
14.5 MOD Sports Complex, Aldershot – gymnasium
14.6 MOD Sports Complex, Aldershot – swimming pool
Peter Trebilcock
AMEC utilised a series of tools to incorporate
were considered just as important as
111
the principles into the thinking and
commercial competitiveness. Table 14.1
2
performance of the team. These are
summarises the principles underlying the supply
3
summarised in Figure 14.7.
chain selection.
4
Selection of the supply chain
Benchmarking – a means of demonstrating
6
As the road to improvement is almost inevitably
value
7
paved with change, the selection of supply
As the long-term whole-life team performance
8
chain members was not to be based on lowest
was more important to the client than achieving
9
tendered price, but on a series of criteria
the lowest capital cost, the team compared
10
including common cultural understanding, ability
critical data relating to each component which
1
to work in teams and the commitment to
demonstrated its long-term value. Evaluation
2
achieve the overall objectives. These criteria
criteria included:
3
5
4 14.7 Key Tools
5
Key tools Phase 1 Business case
Phase 2 Performance brief
Phase 3 Concept
Phase 4 Detailed design and construction
6
Phase 5 Proving period
7 8 9
Continuous improvement
20 1 2
Whole life cycle costing and cost in use
322 Supply chain
Management process
4 5
Value management
6 Value engineering
7 8
Risk management
9 30
Total planning
1 Logistics planning
2 3
Table 14.1
4
Supply chain selection
5 What was different • Specialist selected on ‘soft’ issues
What was the benefit/challenge?
6 7
• Compatibility with innovative nature of project • Need to produce a result which demonstrably meets
9
the objectives • Organisation offering potentially better value rather than lowest cost
• Gave rise to the need to demonstrate that value had
in R&D – sharing results – exposure of
40 1
been achieved
2
• Need to motivate against tough targets • Willingness to become involved
8
3
• Capability to change • Culture not always present throughout the business
4 5
working methods
611
165
Designing Better Buildings
•
Cost per unit/system
•
Time (procurement, lead in, execution)
•
Operating and maintenance costs
•
Improvements in functionality – i.e. can one component to do the job of two or three?
•
Avoids use of alternative designs as ‘Aunt
•
Provides reference standards to test design
•
Provides a brief which is:
Sallies’. options for best fit.
Clustering This is a term given to a group of specialist subcontractors who may have similar responsibilities and common characteristics i.e. the external envelope cluster may include roofing, cladding, windows and door subcontractors/suppliers. Instead of packaging work to each individual and relying on them to resolve conflicts through technical queries with the
•
–
Comprehensive
–
Understandable
–
Capable of easy communication.
Provides a reference point for subsequent changes in clients’ requirements.
In Building Down Barriers the sponsor developed the performance specification. The integrated project team established value criteria using value management methods. The
potential for interface problems to fall in the gaps in between; the clustering concept brings all parties together to resolve interfaces, set
Cluster group
common support elements and agree other issues face to face. Hence the parties work in
Cluster leader
collaboration with focus on a common objective. Figures 14.8 and 14.9 summarise the Prime contractor
operation of clusters. Some of the benefits of clustering are
Cluster members
that it: •
Creates an opportunity for designers to
Primary designers
interface directly with key suppliers. •
Focuses on key objectives.
•
Focuses on long-term relationships and
14.8 Clustering approach
cooperation amongst key suppliers. •
Promotes supplier involvement.
•
Promotes a collaborative team culture.
•
Delivers enhanced performance.
•
Removes interface issues and promotes common working methods.
•
Cluster member as leader
Primary designer/Prime contractor as leader
Can reduce preliminaries.
Value management Another key tool used to capture priorities and subsequently evaluate proposals against them is Value Management (VM). This tool is often implemented through a series of facilitated workshops. The benefits include: •
Helps the client to crystallise requirements and priorities.
166
14.9 Real Cluster Configuration
Peter Trebilcock
project concept was developed by using value
•
Programme saving
111
management techniques, incorporating end-
•
Significant life cycle cost saving by using a
2
combined heat and power (CHP) unit.
3
users’ knowledge, and applying specialist
4
contractors’ skills. Table 14.2 summarises the principles underlying the use of value
Planning and programming
5
management.
Traditionally design teams manage their own
6
The main outputs from the value
design programmes, and the contractor issues
7
management and value engineering exercises
his own construction timetable. At some point
8
were:
the contractor would usually make a request of
9
each party – whether design or subcontractor,
10
Key stakeholder/end-user’s requirements
for the final release of information to adhere to
1
better understood
the relevant programme milestones.
2
• •
Significant reduction in client variations
•
Functionality and value for money achieved
3
AMEC chose to undertake a totally
4
integrated planning approach with all
5 6 Table 14.2
Value management principles and benefits
What was different
7 8
What was the benefit
9 •
Involvement of user groups
• Ownership and buy in to the drivers and adopted solutions – few change
•
Involvement of integrated project team
1
• A deeper understanding of clients’ needs and
2
improved functional efficiency •
Involvement of specialist supply chain members
20
322
• Major component selection and buildability
4
resolved at the right stage
5 6
Table 14.3
7
Value engineering principles and benefits
8 What was different •
Involvement of supply chain specialists
What was the benefit
9 30
• Significant reduction in cost and improvements
1
in manufacturing delivery and erection •
Considered component selection over 35-year life cycle
•
2
• Robust maintenance and replacement cost
3
predictions
Considered building performance over 35-year
4
• Robust prediction of utility usage
5
life cycle
6 Table 14.4
7
Total planning process changes and benefits
8 What was different
What was the benefit
•
Important of techniques from other industries
• Increased clarity of the process
•
Total team input
• Team ownership of the result
•
Fully mapped processes
• Greater certainty and predictability of outcome
9 40 1 2 3
and opportunity to improve efficiency
4
•
Planned to a high level of detail
• Real aid to production at the work face
•
Use of last planner technique
• Caused focus on finishing activities, NOT starting
5
611
167
Designing Better Buildings
contributions integrated into the design,
•
Importance of continuous training and
procurement and execution process. Each
facilitation of the integrated team to bring
member was made aware of the criteria
about cultural change – a major effort.
influencing the success of each party.
•
Alignment of IT for easier communications.
•
Importance of performance measurements
Results and lessons learned from Building
to monitor achievement and provide
Down Barriers
information for current and future
The key results, which can be benchmarked
improvement.
against other projects of the Building Down
•
Recognition that not all organisations/individuals have the capability
Barriers process on this project, included:
to change or add value. •
Functionally superior design solution
•
Importance of accurate and ongoing
(Architects FaulknerBrowns)
benchmarking to establish criteria for
•
Only seven client variations
measuring value and improvement.
•
Whole cost reduction of 13.7 per cent
•
Significant improvements in team efficiency including reduction in waste and abortive work.
Partnering: BAA and the ‘Pavement Team’
At a subsequent MOD conference the client
The logical development of a single project
reported the benefits as:
integrated team is to harness the benefits through utilising that same team for repeat
•
• • •
• • •
Labour efficiency levels reaching 65–70 per
work. BAA have demonstrated their
cent (this is exceptional when compared
commitment to achieving these ongoing
with the Building Research Establishment
benefits by selecting architects and other
(BRE) best practice level of 54 per cent and
consultants and contractors to work with them
the industry norm of around 30–40 per
on a partnering basis. Repeat business offers
cent).
the opportunity for stable business, increased
Up to 113 per cent improvement in
profits and, most of all, better managed
productivity of blockwork.
projects with the same participants continuing
Up to 60 per cent reduction in cost of
to provide valuable feedback and year on year
substructure.
improvements for the client.
Material waste approaching 0 per cent
Following the award to AMEC by BAA of
compared to best practice benchmark of 10
their first partnering agreement, AMEC has
per cent and industry norm of around 30
pioneered a new age in civil engineering
per cent.
procurement. After many years experience in
Reduction in construction time of 25 per
producing high performance pavements for the
cent.
demanding civil and military airfield
Reduction in through-life cost target of
environment, AMEC undertook all BAA airport
10–14 per cent.
pavement works at Heathrow, Gatwick,
Only 0.2 per cent rework (below industry
Stansted and Southampton, as part of a £150
norm of 10 per cent).
million rolling programme of work. The ‘Pavement Team’, as they are aptly known, are
The whole approach also highlighted several
based at Gatwick and had a £30 million annual
lessons that have been developed and applied
turnover, with an aim to slash pavement costs
in subsequent projects:
to US levels. A five-year framework agreement
168
Peter Trebilcock
has brought many benefits, including reduced
responsibility for the overall project results
111
overheads, a better planned workload and
and problems which arise.
2
continuity of expertise. Central to partnering is
3
the use of the New Engineering Contract with its clear definition of the sharing of risk.
4
Conclusion
5 6
In his report on the UK Construction Industry
7
Constructing the Team (1994) Sir Michael
8
Latham highlighted the fuzzy edge between
9
designers and the supply chain as a significant
10
Beyond the examples cited above there are
cause of poor performance in construction. This
1
other tools and techniques designed to aid total
was – and still is – a key issue which the
2
team integration and the consequent smooth
industry needs to address. It is only through the
3
running of projects. They include:
cooperation and integration of all parties in the
4
construction process, and the widening of
5
Common software systems
understanding across all team members of each
6
•
Electronic documentation transfer
other’s roles and interests, that the
7
•
Common CAD systems
management of design and construction will
8
Web-based (paperless) document storage
achieve the project benefits possible.
9
Other tools and techniques to aid team integration
•
•
and retrieval
20
•
Project intranets
1
•
Simplified procurement methods using e-
Acknowledgements
2
322
trading and framework agreements •
•
Adopting mechanisms to protect
The assistance of Gerald Osborne in the
4
continuous profits whilst encouraging drive
preparation of this chapter is acknowledged.
5
for increased value and reduced costs
6
Integrated CAD/CAM software to ease the
7
transfer of design information from
References
8 9
consultants through to fabricators •
Site-based integrated teams
•
Regular client/team feedback sessions where key learning points are captured and incorporated in working methods
•
Adopting a blameless culture – relying on team and peer pressure to perform and where the team take collective
Austin, S., Baldwin, A., Hammond, J., Murray, M., Root, D. Thomson, D., and Thorpe, A. (2001) Design Chains: a handbook for integrated collaborative design, London: Thomas Telford. Construction Task Force (1998) Rethinking Construction, London: DETR. Holti, R., Nicolini, D. and Smalley, M. (1999) Building Down Barriers: prime contractor handbook of supply chain management, London: Ministry of Defence. Latham, M. (1994) Constructing the Team, London: HMSO.
30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
169
111
Part 4
2 3 4 5 6 7
Measuring quality and value
8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
Can design quality be measured? What are the
In his carefully written essay, Prasad
implications if it cannot? If it can be measured,
discusses the issue of measurement, notes
4
how should this be done and by whom? What
how intoxicating the numerical capture of value
5
are the advantages of measurement of quality,
can become and, at worst, how over-simplistic
6
and what are the disadvantages? The four
evaluation can displace difficult questions of
7
chapters in this section of the book address
judgement in spheres like aesthetics and ethics.
8
these difficult questions head on. In Chapter
He suggests too that measurement is often
9
15, Inclusive maps, Sunand Prasad makes a key
seen as a threat to those things that are held
30
observation – that for projects where there has
as most precious in architecture – the
1
to be public accountability, if something cannot
surprising, simultaneous, civilising and place-
2
be measured it is deemed not to exist. Such an
making aspects of the built environment.
3
attitude puts qualities like elegance, invention
However, as he also explains, to reject
4
and wit at risk. Paul Wheeler makes a similar
measurement is to ignore its value for
5
point in Chapter 18 in relation to the
communication and transparency – and for
6
development of Housing Quality Indicators –
making explicit the relationships between
7
that when value for money is being assessed,
subjective and objective criteria. He illustrates
8
costs are easily identifiable, but value is much
how widespread numerical evaluations are,
9
more difficult to measure. If there are no
even in subjective areas like judging vegetables.
40
adequate means of differentiating between
And he notes the growth of a measurement
1
options on grounds of quality, the least cost
culture nationally, including its introduction into
2
option will always be chosen. The
construction via the Construction Task Force’s
3
consequences for social housing, as Wheeler’s
Rethinking Construction.
4
chapter explains, were that quality was being driven down.
322
Rethinking Construction proposed two
5
remedies for construction – lean thinking and
611
171
Designing Better Buildings
performance measurement – both of which had
performance measurement is vital to improving
been successfully employed in the
performance, and that there is better
manufacturing sector. But the Key Performance
understanding of design value in other sectors
Indicators which emerged for construction were
such as manufacturing, that benefit from better
concerned almost entirely with the process –
connectivity with customer preferences. In the
measuring completion on time, to budget and
built environment, design quality is more
with an acceptable site safety record. As Prasad
difficult to understand and to measure –
explains, the Construction Industry Council
particularly where there are more stakeholders.
recognised that the quality of the product
The team reviewed a number of indicators both
remained unmeasured and was at risk of being
within and beyond the built environment,
considered not to exist. In consequence, the
concerned with building performance,
CIC launched a research project to devise
construction process, value management, and
Design Quality Indicators (DQIs), which are
sustainability. They considered in detail the
intended to provide a framework for including
criteria that underpin design awards. Their
both objective and subjective criteria and to
chapter describes the ambitions for the DQIs in
ensure that so-called unmeasurable issues are
terms of its ease of use, its ability to capture
not confined to the margins of debate but are
the diverse views of various stakeholders, and
retained at the centre.
the importance of flexibility – in that it should
Where Prasad describes some of the
be sensitive to the differing objectives of
philosophical issues surrounding measurement,
various types of project. The chapter describes
in Chapter 16, Achieving quality in building
the conceptual framework that was established,
design by intention, Michael Dickson continues
the data-gathering component, and the
the story of the Design Quality Indicators in a
weighting mechanism.
pragmatic vein. The DQIs draw from a wide
As might be expected from something
range of initiatives that can be traced as far
concerned with design quality, visualisation of
back as the Vitruvian principles of firmness,
the results was carefully considered. The DQIs
commodity and delight. They also draw on the
were piloted on five different building projects
criteria used in various construction industry
and a wide range of issues emerged – for
awards, as well as on the Housing Quality
example how to capture a full range of
Indicators and similar initiatives. The Indicators
responses to a building that was used by many
are organised as a series of attributes, grouped
different occupants, and how to combine them
under three sections of functionality, build
to provide an overall evaluation. Other
quality and impact, each of which is further
questions to be faced are: if resources are
subdivided into subsections. Building projects
limited, whose views should be sought? and if
can be assessed against these at various
few evaluators are used, how representative
stages between project inception and handover.
can an individual’s judgement be? The pilot
The Indicators benefited from pilot studies,
studies also revealed previously unanticipated
followed by trail-blazing by up to sixty
uses for the system of Indicators – as a means
organisations.
of assisting clients in procuring better buildings,
Chapter 17, Building indicators of design
as a briefing tool to encourage design team
quality, gives the research background to the
discussion, and as a means of comparing and
development of the Design Quality Indicators.
contrasting the results for different buildings.
Its authors, Jennifer Whyte, David Gann and
As the Indicators become more widely used
Ammon Salter, are the team formerly at the
and a databank of the results builds up, it will
Science Policy Research Unit responsible for
be possible to look at the patterns in the
the development of the DQIs. They argue that
evaluations and identify the strengths (and
172
Measuring quality and vlaue
weaknesses) of modern buildings. This should
111
The system of HQIs was extensively
provide feedback for the design professions and
piloted in thirty-one housing schemes from
2
help to raise design quality.
twelve different developers, and including both
3
private sector and social housing. The pilots
4
in practice, Paul Wheeler discusses the
provide considerable experience of evaluating
5
background to the HQIs, together with their
housing, and a dataset from which a number of
6
purpose and development. Wheeler provides a
checks could be undertaken. These included
7
specific instance of a general point made by
correlation between the assessments of
8
Prasad in Chapter 15 – that in the absence of
different assessors – such as researchers,
9
an accepted measure of quality (other than
developers and residents – of the same
10
meeting minimum standards set by regulation)
scheme, and also the pattern of indicators
1
cost became the dominant criterion for social
across all schemes. The pilot studies revealed
2
housing from about 1980. A decade later, there
the importance of assumptions built into the
3
was a realisation by government that meeting
Indicators, for example about space standards in
4
regulatory minimum standards did not ensure
private versus social housing, about urban
5
quality or value for money in housing provision,
versus rural locations, and about circulation
6
nor whether the dwellings were likely to meet
space versus living space. They also revealed
7
the current and future needs of occupiers. As
that the HQI system is time-consuming in use,
8
an antidote, the HQIs were developed in the
and a need for extensive briefing or training in
9
late 1990s to evaluate both social and private-
HQI assessment to ensure consistency and
20
sector housing, in a way that made them both
accuracy. Most significant of all is Wheeler’s
1
practical in use, and defensible. There are ten
closing remark – that if we are to provide design
2
quality indicators, each of which is made up of
quality in housing, a deeper understanding of
322
about twenty to thirty different criteria.
how homes are used is required.
4
In Chapter 18, Housing quality indicators
5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
173
Chapter 15
111 2 3 4
Inclusive maps
5 6 7 8 9
Sunand Prasad
10 1 2 3 4 5 6 7 8 9 20 1 2
The sign of a truly educated man is to be
targets, performance indicators, league tables
322
deeply moved by statistics.
and business cases often dominate judgements
4
of worth, and without them it is difficult to
5
satisfy standards of public accountability and
6
indeed to obtain funding for public projects.
7
Bernard Shaw Every time a new set of statistics comes out, I can’t help feeling some of the richness and mystery of life gets extinguished.
But how is one to measure art,
8
elegance, invention, wit?
9
A notable ancestor of this culture of hard David Boyle, the Observer, 14 January, 2001
30
measures, Jeremy Bentham, defined poetry as
1
a literary form where the lines don’t reach the
2
margins. It was from such post-enlightenment
3
Microsoft assets amount to 6% of what
antecedents that modern architecture in its turn
4
the company is worth – 94% is in the
developed a reductivist version of functionalism.
5
intangible assets that the accountants
For Hannes Meyer, one of the most ardent
6
cannot measure.
champions of pure functionalism, the subjective
7
was inadmissible in the activity of designing
8
buildings.2 What could not be apparent to
9
There is today an understandable and
Meyer was that his own great skill as an
40
widespread discomfort about the tyranny of
architect – rather than his method – was
1
measurement – especially in the version that
responsible for the quality of his buildings,
2
has spread in modern administrative culture, for
particularly their formal strength.
3
Charles Leadbetter1
example in Britain post-1979. It appears that in
In one way or another architecture – of
4
this culture what cannot be numerically
all disciplines the one where science and art
5
measured is deemed not to exist. Scores,
should be creatively reconciled – has continued
611
175
Designing Better Buildings
to have difficulty reconciling the objective and
An industry which had been in a mess had
the subjective. Partly in reaction to the poverty
managed to achieve a real culture change and
of narrow functionalism, there is amongst
provided there was the will, construction could
architects a strong undercurrent of opposition
do the same, though in its own way.
to any attempt to systematise the evaluation of
At the conclusion of the Construction
the work of architecture. There is a real fear
Task Force’s work the Government set up the
that measuring quality will have a corrosive
Movement for Innovation (M4I) to encourage
impact on architecture as art, and reduce it to
action in the public and private sectors in
mere infrastructure.
response to the report. The key agents for
But if the guardians of the public purse
change were to be: (a) demonstration projects
believe that it does not exist if you cannot
that used innovative methods, and (b) an
measure it, how do you even begin to argue a
industry standard performance measurement
case for the value of design – for the real
tool – called Key Performance Indicators or
economic and social value that high quality
KPIs. These indicators were concerned almost
design can add?
entirely with process. A building project would be deemed a success if it was completed on time, to budget, with an acceptable site safety
Rethinking construction
record and a reasonable score for client satisfaction. There was no mention of the
In 1998 the Government’s Construction Task
quality of the product in any other terms. The
Force – one of then sixty or so task forces
danger loomed that process measures would
initiated by the recently elected and most
become the sole criterion of project success. It
managerial of British Governments – one that
became clear to a number of people involved
set 8000 numerical targets in its first three
with M4I that putting in place parallel
years – published Rethinking Construction, also
performance indicators was the only way to
known as the Egan report after its chairman
register the profound importance of a building’s
(Construction Task Force, 1998). The report’s
design for the quality and productivity of its
trenchant and well-argued criticism of the
inhabitants’ lives. The Construction Industry
construction industry and its proposed remedies
Council raised funds to devise Design Quality
were underpinned by two key theologies: lean
Indicators (DQIs), which are described more
thinking and performance measurement (leaving
fully in Chapters 16 and 17.
aside for the present a third and tacit belief that
The decision to devise DQIs might be
big is beautiful). Both of these approaches have
taken then to contain all the intellectual rigour
shown spectacular results in modern
of the position: if you can’t beat ‘em, join ‘em.
manufacturing, for example in motorcar
But it would be more accurate to describe it as
production and in electronics. For Egan, with
an act of appropriation. We have to distinguish
his background in the motor industry, there
between measurement and the uses to which
were clear parallels with the state of the
it is put. To fear measurement is no more or
construction industry. He had seen car
less logical than to fear technology. Those with
manufacture draw away from outdated
a critical and indeed sceptical attitude to
methods of mass production to make goods
measurement are best placed to make good
that responded far better to customer’s and
use of it. Measurement is too important to be
indeed (because of emission and safety
left to the measurers.
regulations) society’s needs while becoming
Less prosaically, the DQI exercise has
relatively cheaper. To do so, deeply entrenched
forced us to confront more precisely the
habits and attitudes had had to be overturned.
possibilities as well as the limits of
176
Sunand Prasad
measurement in the realm of phenomena that
ribbons . . .’ he adds mysteriously, ‘ . . . there’s 4
111
contain a mixture of the objective and the
more to it than that’. We can be sure that
2
subjective, which is just about everything
whatever this mystery ingredient may be, it’s
3
around us. The exploration of measurement has
not food value or taste – when judging
4
forced a gentle enquiry into the fundamental
vegetables, in an inversion of the
5
nature of the constructed world, of language
functionalist doctrine, visual appearance
6
and of the relationship between art, science
clearly comes first.
7
and morals.
On measurement Yes, the fear of a world reduced to numbers is understandable. But look at what we routinely
These numbers and systems are not a
8
substitute for judgement. The important
9
statistic is not that the performance scores 5.8
10
but that four out of five judges considered it
1
the best. Numbers help us put the expert in
2
context.
3
In a similar way consumers are able,
4
and enthusiastically subject to measurement
through numerical analyses in specialist
5
systems: gymnastics, pedigree dogs, prize
magazines, to inform themselves about the
6
vegetables, flower arrangements, ballroom
various aspects of goods – their functionality,
7
dancing and song contests. Numbers tell us the
their quality of build and manufacture, their
8
quality of electronic goods, cars and domestic
performance, their appearance and style. They
9
appliances. Numbers are part of everyday
are presented with a sophisticated and
20
language and what is more, numbers entertain.
differentiated range of numbers: hard
1
When the skating judges hold up their placards
measures, such as fuel consumption data;
2
– putting decimal points to the quality of a triple
‘soft’, often subjective assessments of experts;
322
axel with a double lutz – we are thrilled. These
and survey data that converts ‘soft’ responses
4
numbers don’t appear to be impediments to
from customers into the hard fact of
5
admiring or enjoying the artistry. We may not
satisfaction levels. People may avidly read What
6
agree, and indeed nor do the judges amongst
Car?, Which Hi-Fi?, Which? and J. D. Power but
7
themselves. Because it occurs in a well
then they, better informed, make up their own
8
understood context the numerical judgement
minds. Otherwise we would all be driving
9
becomes an adjunct or an aid to critical
Subarus.5
30 1
appreciation.
2
At the Crufts Dog Show each breed has a breed standard – a written description
Indicators and their purpose
3 4
of the ideal dog of the breed. The judges compare the dog to this, but additionally
At the outset the DQI exercise quickly
5
they look at the ‘dog’s condition, coat
confirmed the obvious – the factors that go to
6
movement and temperament’ – all subjective
make up design quality are far more numerous,
7
values.3
and interact in more complex relationships with
8
each other than any of the examples cited
9
US magazine Kitchen Gardener, describes how
above. In trials it is just this complexity that has
40
Charles Dell has been judging vegetable
been a key reason for the DQI tool’s warm
1
contests for forty years in the Southern States.
reception.
2
A piece on ‘Judging Vegetables’ in the
What does he look for? For example, ‘an
3
The DQI’s development and logic is
unblemished tomato that is true to type will
summarised in Figures 15.1 to 15.11. The tool
4
always trump one with a cracked skin’. . . But
is a map that helps people to consider the
5
even perfection does not guarantee blue
whole landscape of design quality. The three
611
177
Designing Better Buildings
quality fields of functionality, build quality and
based in most trades, are subject to precise
impact resonate with deep truths about the
requirements for standards of workmanship and
nature of the way our minds have constructed
materials. Is it easier to capture numerically the
the world. The logic of the subsets of attributes
quality of craft than art? Perhaps, but a
within the fields and the simplicity of the
considerable amount of the architect’s role is
method of considering them allow ‘hard’ and
craft and science. If we accept that in the best
‘soft’ values, the objective and subjective to be
architecture all elements of design are
given due place in an inclusive way.
beautifully integrated, then we cannot
Design Quality Indicators are not
downgrade the craft and science components.
intended for working out in any absolute sense
And if we accept their presence there is little
which is the best design or building in any
excuse to resist measures of quality, at least in
given context. It is possible people will use the
these aspects.
tool to compare buildings, but the prime purposes are:
It is a key strength of the DQI tool is that it visibly gives place to the contributions of the many and intricately linked attributes
•
•
To provide a framework to guide the
whose excellence in realisation will make a
setting of a holistic vision and intent for a
building a success for the client and user and
building
possibly a notable work of architecture. It maps
To test the progress of the design and the finished product against this intent
•
To help conduct post-occupancy evaluations of buildings in use.
and registers these attributes in both a cognitive and structural way. It is an inclusive map. Any seminar can generate large numbers of valid but mixed-up quality headings for
Universalist, officially promoted tools such as quality and performance indicators cannot be aimed at encouraging genius. They are for raising the average. In a condition where there is so much mediocre and worse-than-mediocre architecture and design in both the public and the private sector, raising the average is, if
aspects of design. This can easily lead to a boring checklist or a set of design tick-boxes. So what is the logical structure for a really serviceable design quality tool? First we have to 15.1 Possible quality headings
see how all these headings or attributes belong to different categories.
anything, a greater challenge than producing isolated works of brilliance. There appears to be no evidence that, by itself, the appearance of
sustainability
effectiveness
cognoscenti does much for encouraging quality
net to gross
location
attention to detail space standards
flexibility
measurement. Builders, still essentially craft
178
functionality
safety
built environment. players in architects’ resistance to
daylight
access
industry so that we all get a steadily improving There is a whiff of gentlemen and
aesthetics
kerb appeal
robustness
increase the level of critical awareness amongst commissioning clients, the professions and the
engineering systems
cost in use performance
needed is to reach in a direct way those the means to raise their game. We have to
context
efficiency
and clients’ aspirations generally. What is commissioning buildings and provide them with
visual form
fitness for purpose
buildings highly acclaimed by architectural
innovation
order
comfort air quality
meaning
finishes
acoustics
Sunand Prasad
First we need to separate issues of
an
tim e
fin ce
Design quality
res
sou
an
rc e s
hu m
constraints from the experienced quality of the
2
product itself. Buildings are constructed,
3
maintained and operated within the constraints
4
of finite resources – within a ‘resource
5
envelope’. The design quality of a product has
6
the power to distort this envelope. Good design
7
will in effect enlarge the envelope by generating
8
value over a longer time scale than that of the
9
capital investment. Design quality has a dynamic
10
relationship with the resource envelope.
1 2
na
es
tu
rc
ra
ou
l re
111
3
15.2 The resource envelope
4 5 6 Product Design quality indicators
Process Key performance indicators
7 This is how product quality, process
8
quality and the sustainability of both fit
9
together. The DQI tool aims to capture product
20
performance. Process performance is the realm
1
of KPIs. Sustainability – economic and social as
2
well as environmental – is essentially about
322
wise responses to the constraints of the
4
resource envelope. There are many well
5
developed measurement tools for sustainability.
6 7
15.3 Whole project quality
8 9
Sustainability of process and product
30 1 2
Vitruvius and Wootton Commodity utilitas
Delight venustas
After looking at various ordering
3
structures, the DQI team found that the 2000-
4
year-old model set down by Vitruvius (translated
5
in the early seventeenth century by Sir Henry
6
6
Wootton) ‘appeared to do the job rather well.
7
Figures 15.4 to 15.9 show how it is based on a
8
deep structure which fits well with our
9
experience of the world around us.
40 1 2 3 4
15.4 Design quality 1
5
Firmness firmitas
611
179
Designing Better Buildings
First to look at the basics. This is what we do when we build: we mould space by shaping and putting together materials –
Delight Affects our minds and senses
Commodity Manipulate space
together they aim to create the required effect on human minds and senses. Commodity – related to the accommodation – is related to space, firmness to materials and structure, and delight is an appeal to the senses and the mind.
Firmness Manipulate matter
In everyday language we want buildings to be useful, secure (in a wide sense) and pleasurable, and these three relate directly to
15.5 Design quality 2
Delight Effect on the mind and the senses Pleasurable
Commodity Manipulation of space Useful
the previous structures.
Firmness Manipulation of matter Secure
Going from the simple to the sublime, Plato’s ideals of the good, the true and the beautiful have clear parallels with this developing structure. Why? Because materials
15.6 Design quality 3
Delight Effect on the mind and the senses Pleasurable Beautiful
Commodity Manipulation of space Useful Good
and structures are about hard measures and facts – of things which are true (or not). Layouts and spatial arrangements are about organisation – mainly social organisation in buildings – things which are not so clear-cut as facts but can be good (or bad). The relation of beauty to the third point of the triangle is obvious. This structure is also congruent with Immanuel Kant’s three Critiques: of Practical Reason, of Pure Reason and of Judgement (Kant, 1929, 1956, 1987).
180
Firmness Manipulation of matter Secure True
15.7 Design quality 4
Sunand Prasad
Delight Effect on the mind and the senses Pleasurable Beautiful Meaning
Commodity Manipulation of space Useful Good Space
111
Space, tectonics and meaning, words used in the language of architectural theory,
2
map directly onto the previous diagrams.
3 4 5 6 7 8 9 10 1
15.8 Design quality 5
2
Firmness Manipulation of matter Secure True Tectonics
3 4 5 6 Delight Effect on the mind and the senses Pleasurable Beautiful Meaning Impact
Commodity Manipulation of space Useful Good Space Functionality
7
But we need new words that make sense across the construction industry. Hence functionality, build quality and impact. The first
8 9 20
two are also in common use to describe
1
manufactured products – from cars to
2
amplifiers. Impact is more controversial. You always want more functionality and more build quality – but not always more impact. The word may lack poetry but, neutral and direct, it was
322 4 5 6
widely accepted.
7 8
15.9 Design quality 6
Firmness Manipulation of matter Secure True Tectonics Build quality
9 30 1 2 3
Impact – form and materials – internal environment – urban and social integration – character and innovation
Functionality – use – access – space
4
In the DQI the three quality fields are
5
separated into subsubsections under which
6
more detailed questions about particular
7
attributes of the design can be addressed.
8
These questions range from the prosaic and numeric (efficiency of space, the adequacy of the acoustics), to the transcendental and poetic (the capacity of space to lift the spirits, the
40 1 2
sensual impact of the acoustics). 15.10 Sub-sections of the three quality fields
9
3
Build quality – performance – engineering systems – construction
4 5
611
181
Designing Better Buildings
Basic
A key point about design quality is that it can only be achieved when functionality, build quality and impact all work together. The three overlapping circles express this well. We can
Added value
think of the non-overlapping areas as representing the very basic things you need to get right – without which there is no point in discussing quality. Then there is a region of
Functionality
Excellence
Impact
some but not total overlap – this represents the added value. Finally, in the middle, all three quality fields overlap – that is where you get true excellence. It needs to be emphasised that the basic is just as important as the excellent – without the basics there can be no true excellence.
Build quality
The poetics of function Architecture is a public art. But that is not all it is. Even buildings most emblematic of the
The current controversy about
civic realm have to perform a number of
measurement has its roots in the differentiation
other duties – keeping the rain out, keeping
between science, art and religious morality that
the valuables in; keeping the structure up,
was cemented by the Enlightenment. It is
keeping maintenance costs down; and letting
important, as Ken Wilber (1996) has pointed
people go about their business conveniently
out, to see the positive in this – the special
and in safety. The wonderful thing is that all of
development in Western thought that enabled
these ostensibly functional facets have their
an extraordinary increase in understanding of
poetics too. This is the profound quality of
the physical world and also enabled new social
architecture.
structures that have led towards the
In tackling the problem of measurement head on, the DQI exercise has suggested an optimistic conclusion: a critical embrace of the
enfranchisement, however imperfect, of everyman and everywoman. But at the same time two tendencies
very things (accounting, statistics, numbers,
inherent in such differentiation have combined
measurement) seen by some as a threat to
to threaten the dumbing-down that we should
what we hold most precious about architecture
all fear. First, as soon as we describe an
as a public art (the ineffable, non-numerical,
objective realm that is separate from the I and
surprising, simultaneous, inspiring, civilising,
the We (with our complicated subjective
place-making, rule-breaking) could yet help us to
feelings and the rights and wrongs of collective
safeguard just those precious things. It could
relationships) it becomes easy to put numbers
be the key to a newly shared understanding of
to this realm. Indeed it persuaded many
the value of architecture. An holistic structure
thinkers that the whole of experience and even
for considering design quality holds the promise
its meaning could be captured through numbers
of a better integration of all aspects of
– Bentham included. The ease of numerical
architecture – quintessentially an art of many
capture of value is intoxicating and displaces
aspects, the mother of the arts.
more difficult questions of judgement in the
182
15.11 Achieving excellence
Sunand Prasad
spheres of aesthetics and ethics. Second, not
numerical value we do violence to the integrity
111
only is the objective realm easier to capture
of architecture as a practical art – as distinct
2
through numbers and the written word, but this
from a fine art – in the sense identified by Colin
3
7
ease of capture finds a ready use in the
St John Wilson and others. This does not
4
demands of representative democracy. So there
mean that we have to make numerical prisons
5
appears a new need for such ready packaging
for subjective value fields. What is important is
6
of purported value. Soon, if it can’t be
to make explicit the relationship of the
7
measured, it does not exist. The imperative of
subjective fields to objective and ethical fields:
8
accountability, itself a consequence of manifest
to construct a framework for the judgement of
9
democracy, leads to an aversion in the public
value which is inclusive by honouring and
10
sphere to risk-taking. Reliance on measurement
placing in a proper relationship all aspects of
1
is both a consequence and a promoter of this
the art.
2
condition. If decision makers can distance
But will the means of judgement
3
themselves from decisions by basing them on
become embedded in the methods of creation?
4
statistical fact they reduce the risk of censure
If we place the subjective – the quality field of
5
on the grounds of poor judgement.
‘Impact’ – too precisely in the context of the
6
objective – functionality and build quality – will
7
pincer movement between popular
it promote a crude differentiation of the
8
demystification promoted through numbers and
complex elements of the act of design?
9
So the art of architecture is caught in a
administrative accountability based on
It is impossible to forecast what effect a
20
reductivist measures. But to reject
judgement system will actually have in practice.
1
measurement and numbers is to ignore their
Did British architecture suddenly refract into
2
value as language and their potential to
disjointed components as soon Sir Henry
322
increase transparency. If such systems are the
Wootton translated the Vitruvian triad as
4
vehicle for carrying a precious idea into parts of
‘Commodity, Firmness and Delight?’8
5
the culture it is not reaching, then so be it:
Architecture then did not have to deal with the
6
getting in under the radar. The only way out of
intrinsically ossifying tendencies of evidence-
7
the pincer is to transcend the crude polarity
oriented bureaucracies, the Private Finance
8
between the objective and the subjective.
Initiative and European competition rules.
9
Although there is a danger that like all systems
30
realisation is taking place in science. Richard
and tools, the DQIs will be applied too
1
Wasserburg (2001) in a recent New Scientist
mechanistically and their intent corrupted, this
2
argues strongly for that side of science which is
putative harm seems less of a threat than the
3
not directly about being useful – ‘impractical’
real harm being done by the poverty of average
4
science – and coming clean about the pleasure
standards of design of buildings today which
5
in its pursuit. A pleasure that can be shared
are leading to real waste of public resources
6
with a wide public. A pleasure that is
and a legacy of mediocre public buildings. The
7
remarkably akin to the pleasure that art and
interesting aspect of the standards of design
8
architecture can give.
being criticised by the Commission for
9
Architecture and the Built Environment and
40
progressive differentiation between arts,
other bodies is how they are failing for the
1
sciences and morals has now to give way to a
most mundane of reasons – lack of daylight,
2
reintegration of these realms. In architecture
poor space allowance, and a downbeat
3
There is some evidence that a parallel
The Enlightenment’s insightful and
9
there seems to be ready arena for practical
environments for building users. Transparency
4
action to this end. If we divorce the realm of
of evaluation criteria must make it more likely
5
subjective value entirely from the realm of
that quality will be addressed on a broad front,
611
183
Designing Better Buildings
even if this is done as a checklist exercise. More profoundly the presence in the DQI tool of searching questions about the character of
6
buildings, their appeal to the intellect, their integration with the urban and social realm demands explicit attention to such vital components of good architecture.
7
Nevertheless, the danger of a simplistic numerical approach to design derived from the DQI structure demands vigilance from its promoters and developers. The recognition that real design quality relies on the integration of all aspects must be embedded in such measurement systems. The rest is reliant on the level of critical awareness that will surround their use.
8 9
products, most notably cars. The manufacturer Subaru has consistently been placed first in recent years, as reported in magazines such as What Car? Sir Henry Wootton The Art of Building, 1624: ‘Well-building’ hath three conditions: Commodity, Firmness and Delight’. Vitruvius used the words Utilitas, Firmitas and Venustas. (Marcu Vitruvius Pollio, De Architectura Libri Decem, 1st century BC). A distinction made by T S Eliot as elaborated by Colin St John Wilson (1992) Architectural Reflections, Architectural Press, Oxford. Sir Henry Wootton, The Art of Building, 1624. CABE (the UK Government’s Commission for Architecture and the Built Environment) has produced internal reports on schools built under the PFI which details these shortcomings. Similar criticism of health buildings have been widely reported. CABE has noted that such failings are not particular to PFI but to much design of public buildings. See also Audit Commission (2003) PFI in Schools: the quality and cost of buildings provided by early Private Finance Initiative schemes, London: Audit Commission.
Notes
References
1
Construction Task Force (1998) Rethinking Construction, London: DETR. Kant, I. (1929) Critique of Pure Reason, trans. Norman Kemp Smith. New York: St. Martin’s Press. Kant, I. (1956) Critique of Practical Reason, trans. Lewis White Beck. Indianapolis, IN: Bobbs-Merrill. Kant, I. (1987) Critique of Judgment, trans. Werner S. Pluhar. Indianapolis, IN: Hackett. Wasserburg, R. (2001) ‘That’s entertainment’ New Scientist, 3 November. Wilber, K. (1996) A Brief History of Everything, Boston: Shambhala Books.
2
3 4 5
184
Quoted in David Boyle (2001) The Tyranny of Numbers, New York: HarperCollins. ‘. . . architecture as emotional act of the artist has no justification . . . building is nothing but organisation: social, technical, economic, psychological organisation’. Hannes Meyer, from a lecture at the Bauhaus, 1928. Kennel Club website – www.crufts.co.uk Kitchen Gardner, no. 23, Taunton Press, Connecticut, Oct/Nov 1999. J. D. Power dominates the market in customer satisfaction surveys in connection with a number of
Chapter 16
111 2 3 4
Achieving quality in building design by intention
5 6 7 8 9 10 1 2 3 4
Michael Dickson
5 6 7 8 9 20 1 2
Le Corbusier would have said that client, user,
about how the budget breaks down into its
322
architect, engineer and constructor were all the
elemental parts – in the case of building
4
same but different. Indeed we have to work
development, between access and site
5
holistically and in integrated supply chains for
development, landscape, entrance, built form
6
the successful creation of value in construction.
and material usage, services and finishes, and
7
indeed towards overall quality of specification.
8
each individual responds differently to the
Without early resolution of the budgetary
9
artistic or scientific elements of a design. Le
aspirations between client, users, designers and
30
Corbusier argued that there needs to be
construction team, little real progress on quality
1
creative tension between ‘spiritual man’ and
is possible.
2
In the assessment of design quality,
‘economic man’ for success. Nowadays one
3
might add ‘between different parts of the
4
supply chain – clients, designers, specialist
How is quality perceived?
5 6
suppliers, and constructors’. In his model, knowledge ‘of man’ and of ‘physical laws’ are
The CRISP Design Task Group (see Chapter 12)
7
the drivers of creative imagination, beauty,
whose focus was on capturing the value of
8
freedom of choice and indeed of material,
good design, produced an interesting map of
9
statistics, dynamics and calculation.
the pressures which range around the process
40
of delivering the quality of product (see Figure
1
construction by each individual comes from the
12.1 on page 138). The significance of this map
2
balance of their individual response to the range
is that it places value systems as the links
3
of stimuli – social, spatial, acoustic, visual,
between product and process, and acknow-
4
thermal – to the environment. In the real world
ledges that the product is compressed by
5
this has to relate specifically to the discussions
viewpoints, power, politics, and lifetime values.
611
The actual response to a building or
185
Designing Better Buildings
Spi
This requires a sophisticated
rit u
measurement system for tangible as well as
Creative imagination Beauty Freedom of choice
1
al m
intangible components. The diagram relates
an
value systems of delight, function and
2
sustainability to the therapeutic use of the product where user and community are both
K
ledge of Ma now n
Kn
3
customers. There is, of course, also an
dge of M owle an
4
alternative route embodying a slightly different 5
value set via a more structured approach
5
6
responding to political and financial influences. Another expresses the importance of
7
monitoring the quality of both the product and 8
Kn
find this diagram a useful starting point from which to discuss measurement of design
ow
le d
g e o f p h y si
la c al
w
s 9
quality in the context of delivering a product.
an ic m nom Eco
process outcomes through the feedback loop. I
Architect Material Statistics and dynamics Calculations
Engineer
Kn
ow
le d
g e of p h y sic a
l la
w
s
The Egan Report Rethinking Construction (Construction Task Force, 1998) placed an emphasis on a culture of measurement, monitoring and continuous improvement. This led to the development by the Movement for Innovation (M4I) of Key
•
design for concept
•
design for procurement.
The outcome of design can therefore be measured in two separate ways:
Performance Indicators (KPIs). Initially KPIs were all about measuring the tangible aspects
•
of the process of construction; predictability of time, cost, freedom from defects and customer
satisfaction with the end product (CIC DQIs)
•
realisation of the product (M4I KPIs).
satisfaction. The work on Design Quality Indicators (DQIs) extends the method of
Figure 16.2 shows this diagrammatically. It links
assessment and monitoring to the design
the M4I 5–4-7 construction process
quality of the built product itself in order to
improvement map to the activities of briefing,
evaluate the relative quality of a particular
design, commissioning and operation.
building. The Construction Industry Council research programme is aimed at linking the M4I indicators in the construction process, upstream
The need for indicators for design
to the briefing and concept stages and downstream to the satisfaction experienced by
In 1989, The Building Centre Trust organised a
end-users, developers, owners and society at
seminar on ‘Principles of Modern Building’ at
large during occupation and use. It seeks to
Templeton College in Oxford. Regrettably, the
promote balance between the efficiency and
contracting side of the industry was poorly
effectiveness of the process, to delight and
represented – a feature which at that
satisfaction with the product, which, after all, is
recessionary time reflected the withdrawal of
destined to operate over many years and in
some of the major contracting companies from
different guises.
concern with design and construction to a
Design is recognised as having two distinct phases:
186
primary focus on management and finance. The subsequent and substantial initiatives by
16.1 Creative imagination
Michael Dickson
16.2 Improving the process and product
111
Brief
2 3
Design
4 Improving the project process
Drivers for change
Annual targets for improvement
5
Capital cost
–10%
Construction time
–10%
Predictability
+20% M41 KPI process
6
Committed leadership Design Quantity indicators Whole life value
Product development
Partnering the supply chain
Focus to the customer
7 8
Construction Product team integration Quality driven agenda
Project implementation
Production of components
9 10
Defects
–20%
Accidents
–20%
Productivity
+10%
Turnover and profit
+10%
1 2 3
Commitment to people
4 5 6
Commission
7 8
Operation
9 Feedback
CIC DQI product
20 1 2
Latham Constructing the Team (Latham, 1994)
resources and the long lifetime of this asset
322
and Egan Rethinking Construction (Construction
and the costs of sustaining the building over
4
Task Force, 1998) in the industry have
a period, have meant the development of a
5
attempted to correct this misalignment.
set of large industries and complex
6
financing methods. Their coherent
7
One of the outcomes of the Templeton workshop was The Idea of Building (Groak,
management is only now beginning to be
8
1992). In this slim and incisive work, Groak
understood. Today many circumstances
9
attempts to define effective demand which, for
combine to make this process of building
30
the following reasons, he finds complex:
definition even more speculative:
1 2
•
It is not clear who is stating the
•
requirements: client, user or society. •
Participants have different ways of
•
expressing their wants. •
Demographic changes (for example,
3
longer lives, urbanisation worldwide)
4
Changes in location and nature of the
5
workplace
6
Different people have different
•
Changes in access to communications
7
preoccupations – whether image, budget,
•
Changes in the organisational structures
8
of industry and commerce
9
A greater awareness of the
40
environmental and energy impact of
1
buildings and associated processes
2
An increasing amount of consumer
3
purpose – means the creation of an
protection legislation, diminishing the
4
economic asset, whether or not that was
significance of the traditional commercial
5
the prime motive. The large shift of
warning ‘let the buyer beware’.
611
purpose, or timing. • To quote: To build – speculatively or for a given
•
187
Designing Better Buildings
In a way, he was building on earlier work from
of Built Environment (CABE), M4I, the
other cultures, such as that of James Marston
Treasury, the Office of Government
Fitch in American Building: the environmental
Commerce (OGC), the Urban Design Alliance
forces that shape it (Fitch, 1975), and American
(UDAL) and the Major Contractors Group.
behavioural research (US National Bureau of
The DQIs build on various evaluation systems,
Standards, 1974; Figure 16.3).
particularly the evaluation criteria used in
Contemporary to Groak is Aesthetics of
deciding awards for outstanding
Built Form (Holgate, 1992). This book was
developments such as the British
written primarily for the benefit of student
Construction Industry Awards (BCIA), RIBA
engineers, to counteract their inclination to
and Civic Trust Awards, and so on. It also
respond: ‘Well it’s just a building. Why should I
builds on the pioneering work on indicators
have feelings about it?’ Of course we all must –
by NHS Estates, as well as the Housing
whatever our home discipline!
Quality Indicators, and studies by the Construction Industry Research and Information Association (CIRIA), CRISP,
Towards measurable indicators
BRE and several other significant institutions in the field. Many were represented at the
The CIC Steering Group comprised engineers,
interim workshops run by the research
surveyors, architects and contractors, joined by
contractor. Among the individual influences on the
representatives of the Confederation of Construction Clients, lay assessors and
development of the DQIs was a framework for
constructors. The research itself to devise the
evaluating design quality prepared by Susan
DQIs was contracted by the Science Policy
Francis of the Medical Architecture Research
Research Unit (SPRU) at the University of
Unit (MARU) presented at the CRISP Design
Sussex, and the principal researcher was
Task Group workshop (Macmillan, 2000). She
David Gann.
identified the overlapping features of therapy
At key stages the work has been discussed with the Commission for Architecture
(delight), function (purpose) and sustainability (resources) in which:
Well-being
Comfort
Reversible degeneration
Continuous exposure to stressful factors
Continuous exposure to stressful factors
Discomfort
Recuperation
Distress
Rest
Failure
Irreversible degeneration
Disablement
Disease
Death Fatal exposure to stressful factors
188
16.3 The impact of environmental factors
Michael Dickson
•
•
Therapy relates to user perception, to
•
psychology and to the appeal of form and
•
Quantifiable performance attributes
111
Non-quantifiable amenity attributes, such as
2
space.
contextual impact, aesthetics, and symbolic
3
Function to use for health care, of the
significance.
4 5
site and satisfactory operation. •
Sustainability to social purpose,
It is also possible to distinguish between
6
economics and environmental
environmental qualities that are subjective and
7
performance.
those that are physical (Table 16.1).
8 9 10
A similar set of design quality indicators emerged from the work conducted by the Quality Directorate of MOD in the Breaking
Development of the Design Quality Indicator
1 2 3
Down Barriers initiative (Holti, Nicolini and Smalley, 1999). Here the terms used are:
Drawing on this wide variety of influences, the
4
Steering Group and its research contractor
5
•
Architectural merit
developed what it believes to be a robust tool
6
•
Internal quality
for indicating design quality. Chapter 15 has
7
–
suitability for purpose
already shown some of the philosophical
8
–
future adapability
background and how the tool resulted from
9
•
Accessibility
applying the design philosophy of Vitruvius to
20
•
Cost in use, ease of maintenance
the practical, social, environment and financial
1
•
Environmental friendliness and energy
constraints of procuring modern buildings,
2
efficiency
including the remarkable fact that the Vitruvian
322
Viability of the proposed procurement
triangle of firmness, commodity and delight
4
route
was found to be suitably robust as a starting
5
–
programme
point for twenty-first-century usage. Suitably
6
–
construction method
updated, these became the sub-indicators of
7
–
use of materials
function, of build quality and of impact (see
8
Figure 15.10 on page 181).
9
•
•
Value for money (soundness of cost provision/risk assessment)
By considering the levels at which any
30
particular element contributes to quality –
1
defined as basic, added value or excellent, and
2
Certainly quality in design is a difficult
by identifying within each of the three main
3
proposition to assess and measure. Giddings
sub-indicators the attributes that contribute to
4
and Holness (1996) separate two
it, the overall DQI framework for assessment of
5
components:
relative quality was constructed (Figure 16.4).
6
•
Involvement of artists and crafts people.
7 8 Table 16.1
9
Distinguishing between subjective and physical qualities
40 Environmental quality (subjective)
Environmental quantities (physical)
• Character
• Temperature
• Atmosphere
• Illuminance
• Ambiences
• Sound levels
• Images etc.
• Ventilation rates etc.
1 2 3 4 5
611
189
Designing Better Buildings
16.4 The overall framework
Siting Typespecific attributes
tio nc
Community privacy
Composition
Ease of Management
Landscape
Civic Contribution
Fu
Connectivities
Spatial qualities External form
Space allowance
Artificial lighting
Innovation
Circulation efficiency Type specific attributes
ct pa Im
na
lity
Accessibility
Natural light Valuing the user
Adaptability Health and safety
Symbolic fit
VISION
Whole life cost
User control
Acoustics Finishes
Ease of maintenance Structural efficiency (Build ability)
Durability
Finishes
Natural light
Thermal comfort Artificial lighting
Acoustics
Typespecific attributes
Build quality
The drivers and conditioners of successful development – a necessary framework
the whole-life of that product and the value of the service, which its successful construction facilitates, is most significant – so-called whole-life value. Diagrammatically, the
Buildings are constructed, used and adapted
assessment of design quality then becomes
within the constraints of finite resources. The
constrained by the framework of development –
end quality and value of a building have to be
finance, resources, time and whole-life value
judged in the context of the aspirations and
(Figure 16.5).
resources that its creators had for it and its
Such questions as:
location. Every building can therefore be said to be the product of the restraints of conditions
•
consciously applied to its birth. Consequently at its inception, every
How long is the facility required to be in service (design life)?
•
What is the likely comparison of initial
building project requires a clear perception of
capital costs of the construction itself as
the conditions which apply to its delivery in
against the cost of occupation and
order for it to be considered an all-round
maintenance of the facility (capex versus
success. The approach to the value placed on
opex)?
190
Michael Dickson
Whole life value
16.5 Constraints acting on the framework of development
111 2 3 4 5 7
Im
Fu nc tio na lity
6
pa
8
ct
9 10 1 2
Time
Finances
3 4 5 6 7 8 9 20
Build quality
1 2
322 4
Resources
5 6
•
What are the opportunities for improving
the successful building is often the direct
7
the productivity and comfort of operators
outcome of creative response to these very
8
(occupational opportunity)?
constraints.
9 30
Then there are the immediate pragmatic concerns of: • •
•
Process of design
1 2
Design is the activity that brings together all the
3
What are the financing arrangements or
contributions of the construction industry to
4
needs for procurement and operation?
produce a building that meets the customer’s
5
What are the time constraints which apply
needs. It is essentially an holistic process which
6
to practical completion and the income-
needs to draw together the skills and
7
generating requirements of the facility?
experience of a wide range of contributors
8
How do the available technical, material and
working across discipline boundaries.
9
skills resources and legislative framework affect the development plan?
To make some sense of a measurement
40
system for the value of design, consideration
1
has to be made of the design process itself.
2
Such questions need addressing so that
There have been many descriptions of the
3
available budgets can be allocated and available
design process but the clearest is a series of
4
resources apportioned to reflect the apparent
stages which divide into analysis, synthesis,
5
risk, available time and required duties. Indeed
evaluation and communication (Figure 16.6).
611
191
Designing Better Buildings
The tool for design quality assessment
The overall design and procurement process can be seen as a series of decisions
has been designed to be applied at any stage
that lead progressively towards the built reality.
of the Gershon gateway process of
The process is a stage by stage one with each
procurement and operation for buildings (Figure
stage described in the same terms, even
16.8). It applies from the definition of the
though the content of each stage is different.
business case, through design, to procurement
To stand a hope of achieving broad-based
and onward to effective and productive
design quality in the final product, many
operation in use. Primarily it allows one to track
separate values have to be introduced into the
whether the initial intentions for the project
recipe. These might be described as quality
have been met in the completed product.
indicators which drive the development of the product model and are evaluated by a
Questionnaire
performance feedback loop in the stage (Figure 16.7). The achievement of a good building
As a result of considerable development work,
requires a range of people with different
a simple questionnaire written in plain English
education and interest to contribute to the
for professional and layman alike, and intended
process, all of them often doing different jobs
to take no longer than twenty minutes to
and providing a variety of experience and skill.
complete, has been formulated (see Figure 17.2
It has to be recognised that the quality of the
on page 200). The respondent is asked to score
process itself does not automatically result in a
quality under the three principal sections of
quality product.
functionality, quality of build and impact, by
Level of excellence
Definition and acceptance criteria
depends on Analysis Fitness for purpose Synthesis depends on Evaluation Conformance to requirements
Acceptance criteria
16.6 The design process
Consistent communication
Stages
Stages
Lead contributor
Conception
DQ1
Selection of form
DQ2
Detail design
DQ3
Detailing and fabrication and erection
DQ4
Contractor – Fabricator and engineer
Operation and use
DQ5
User, owner
192
Conception
Client and architect
Value User productivity
Architect and engineer Selection of form
DQI
Engineer and architect
Fitness for purpose
Delight
16.7 Levels of excellence
Michael Dickson
giving opinions on a range of subsections,
representative bodies throughout the
111
shown in Table 16.2. Further details of the
construction industry. The findings imply:
2 3
scoring and weighting mechanisms are given in Chapter 17.
Pilot studies
•
real enthusiasm for the idea
4
•
the conceptual structure is acceptable
5
•
the questionnaire is about right
6
•
the results are valuable and of genuine use.
7 8
As part of the development programme, the
It has also been agreed that the methodology is
9
DQI tool was successfully piloted on five
capable of being sectorised to a greater level of
10
projects, receiving positive responses from a
detail as required, for instance by the NHS
1
wide range of respondents. Further details are
Estates, for the assessment of performance of
2
given in Chapter 17. Each pilot enabled the
health buildings.
3
Although the value of using such a tool is
team to refine language and to produce a tool
4
that bridges the cultures and language of client
now becoming widely recognised, this is very
5
(in the widest and narrowest sense),
much still work in progress and it will need still
6
constructor, architect and other designers. The
further refinement. Such improvement will need
7
approach has been tested on a number of
additional time and further beta testing on a
8 9 20
Gates
Define business need
1 2
Prepare business case Gate 1 Business case
322
To confirm business justification
4
Define procurement strategy Gate 2 Procurement strategy
5
To confirm procurement method and sources of supply
6
Invite, evaluate and refine Tenders Gate 3 Contract award
7
To confirm investment decision
8
Award contract Gate 4 Implementation
9
To confirm ‘readiness for service’
30
Manage implementation of contract Gate 5 Close out contract
16.8 Gershon Gateway Process
1
To confirm ‘in service’ benefits
2
Manage and operate contract
3 4
Table 16.2
5
The sections and subsections of the DQI tool
6
Section 1
Section 2
Section 3
Function
Built quality
Impact
• Location
• Construction
• Contribution to
• Siting
• Engineering systems
• Access
• Robustness
• Form and materials
• Space
• Performance
• Internal environment
• Use
• Integration
• Identity and character
7 8 9 40 1
community and place
2 3 4 5
• Innovation and inspiration
611
193
Designing Better Buildings
range of completed buildings in order to achieve
Construction Industry Council, and I would also
a genuinely interactive web-based version.
like to acknowledge the assistance of the members of the CIC Steering Group and the research contractor, SPRU.
Conclusion Initial feedback suggests the DQI tool is robust
References
and readily understandable, applicable generically to all building types. It is designed to be used by professionals and lay people alike, and is intended for all who wish to see the quality of the built product improve. It complements existing indicators covering sustainability and construction process. It is aimed at addressing all parts of the industry – developers, designers, constructors, users and neighbours – by bridging cultural divides and easing communication between parties. It can be used by all parties at any stage of the design, procurement and occupation process to inform on the compromises that need to be made in the process to achieve affordable, enduring quality.
Acknowledgements This paper is the result of an initiative started by Robin Nicholson when Chairman of the
194
Construction Task Force (1998) Rethinking Construction, London: DETR. Fitch, J. Marston (1975) American Building: the environmental forces that shape it, second edn, New York: Schocken Books. Giddings, B. and Holness, A. (1996) ‘Quality assessment of architectural design and design award schemes’, Environments by Design, vol. 1, p53–68. Groak, S. (1992) The Idea of Building – thoughts and action in the design and production of buildings, London: Spon Press. Holgate, A. (1992) The Aesthetics of Built Form, London: Oxford University Press. Holti, R. and Nicolini, D. (1999) The Role of the Architect in the Integrated Supply Chain, Tavistock Institute document CSNRO/168, December 1999. Holti, R., Nicolini, D. and Smalley, M. (1999) Building Down Barriers: prime contractor handbook of supply chain management, London: Ministry of Defence. Latham, M. (1994) Constructing the Team, London: HMSO. Macmillan, S. (2000) Report of the CRISP Design Task Group Workshop, CRISP reference 99/18. Available on the CRISP web site at www.crisp-uk.org.uk US National Bureau of Standards (1974) Building for People – behavioral research, approaches and directions, Washington, DC: US Department of Commerce, National Bureau of Standards SP474.
Chapter 17
111 2 3 4
Building indicators of design quality
5 6 7 8 9 10 1
Jennifer Whyte, David Gann and Ammon Salter
2 3 4 5 6 7 8 9 20 1 2
Performance measurement has become a vital
advanced in some areas than others, with the
322
part of the machinery to improve practices in
emphasis on performance in processes, rather
4
the UK construction sector (Construction Task
than on the quality of design of products.
5
Force, 1998). The basis for most of the new
Experience of performance measurement in
6
approaches to measurement has been adapted
some areas has also highlighted the dangers of
7
from methods used in the manufacturing
becoming too reliant upon the issues that are
8
sector, with the main emphasis on process
easy to quantify, leading to ignorance of other
9
management and logistics. Lessons have been
factors which may be equally important, but
30
drawn from the literature on lean production
difficult to measure. For example, it is more
1
and Japanese approaches to quality
difficult to measure the whole-life value of a
2
management (Monden, 1983; Schonberger,
building than it is to measure its initial cost.
3
Design quality is an area that requires
4
resulted in the introduction of a suite of
better understanding and which is difficult to
5
benchmarking techniques and the development
measure. Following the successful
6
of key performance indicators (KPIs). The focus
development of indicators to measure the
7
has primarily been on the measurement of
performance and sustainability of construction
8
processes, in which headline indicators have
processes, various projects have attempted to
9
included metrics relating to time and cost of
develop indicators to measure design quality.
40
production. Measurement associated with the
The authors have been involved in one of these
1
quality of production has also been developed
projects, which is developing and piloting
2
and implemented, with the focus on waste and
generic Design Quality Indicators (DQI) for
3
defects.
buildings.
4
1982; Womack and Jones, 1996). This has
The development and use of performance measurement tools are more
As von Hippel (2001) argued, the
5
users of products often have considerable
611
195
Designing Better Buildings
information and ideas about what a product must achieve and do. Yet this information is
Measuring design and involving users
sticky. It is often hard for users to express their preferences – they often do not speak
A review of the literature on design and design
the proper technical languages, they respond
quality enabled us to identify gaps in the
to products in immediate and direct ways
current range of tools available in the
with little structure. Companies use a wide
construction sector. It showed that although
range of techniques in trying to capture
there have been a number of bespoke tools
these reactions and integrate them into their
developed to assess quality in specific sectors,
new product development processes, but
such as housing, there was no generic tool for
often after the fact and through a set of
assessing the design quality of buildings.
mediated relations, such as external consultants. In some areas of manufacturing there tends to be a better understanding of
Quality measurement
the value of design embodied in products and also better connectivity with customer
Different indicators either in operation or in
preferences. For example, techniques such as
development include:
Quality Function Deployment are used in the motor vehicle industry (Ward, Sobek et al.,
•
End-user studies, such as Probe and those
1995; Smith and Reinertsen, 1998; Clausing,
developed by DEGW and Hoare Lea. As
1994).
Zimmerman and Martin (2001) point out, it In the design of buildings, efforts at
is a common finding in social research that
understanding customers often take place
designers and clients/occupants evaluate
after the product has been developed and
buildings differently. Post-occupancy
constructed. Information from users is not
evaluations provide commissioning clients,
transferred to the design team in a shape and
design and build teams, and occupiers with
form that can be useful for reshaping the design. It arrives either too late or in a format
useful snapshots of users’ views. •
that cannot be used by front-line designers
Institute of Civil Engineers’ value
and engineers. More often than not, sales and marketing or service departments
management tool (Male, Kelly et al., 1998). •
receive this information and then pass it along to the production and design teams.
Design activities, integration and flexibility of the design process and a variety of
experience from customers to designers
different design methodologies. •
The Design Quality Indicator (DQI) is an
KPIs for the construction industry projects – on the Internet at KPIzone.com – although
extension of the Egan agenda of mapping,
none of these deals explicitly with design
measuring and managing the design and construction process. It places particular
Housing Quality Indicators developed by the DETR (see Chapter 18).
•
This limits the direct flow of information and and producers.
Value management tools, including the
quality. •
Sustainability of buildings – BREEAM and
emphasis on the quality of design embodied in
Ecopoints systems predict energy use
buildings – the outputs of construction. It
buildings, but fail to incorporate life-cycle
therefore seeks to complement the existing
issues of sustainability. The SpeAR tool of
mechanisms for examining the performance,
sustainability indicators developed by Peter
providing feedback and capturing different
Braithwaite of Ove Arup is likely to prove
perceptions of the value of design.
useful for this.
196
Jennifer Whyte, David Gann, Ammon Salter
•
Legal, financing and procurement, planning
With the publication of Better Public
111
and research and development
Buildings (with a foreword by the Prime
2
mechanisms – comparing the institutional
Minister) (DCMS, 2000) and the foundation
3
framework with European construction
of the Commission for Architecture and
4
industries.
Built Environment (CABE), there has been
5
a sea change in government attitudes.
6
We drew upon lessons from the development
The DQI helps to support this movement
7
of these tools during the creation of the DQI.
towards better design.
8
There is some overlap between our tool and
The instrument used to collect
9
several of the previous attempts to explore
information needs to be simple, clear
10
design quality.
and concise:
1
➢ It should take no more than one hour
2
•
Design intent is developed throughout the design process, as the problem and its
3
to complete. ➢ It should combine subjective (attitudes
solution co-evolve. However, the opportunity to
4
influence the design of a building diminishes
toward design) and objective (specific
5
rapidly over time. Path dependency sets in and
features of the design) indicators.
6
➢ It should include the views of as a
projects become locked in to particular sets of
7
solutions (Arthur, 1987). In spite of useful work
wide a number of actors in the project
8
by Brand (1994), Harbraken (1972, 1998) and
as is possible.
9
➢ It should be piloted widely and
Duffy and Henney (1989) not enough is known about the consequences of path-dependency
20 1
intensively. ➢ Results should be fed back to all
and how to manage it in the context of design requirements to meet changing user needs.
2
322
participants in the project. ➢ It should be flexible – no magic
The DQI project aims to measure the
4
quality of design at different stages in the
number, but a set of indicators
5
design process: inception, design, construction
expressing the differing objectives of
6
and use. It is designed to be used by anybody
different projects.
7
involved in the process, and to be short, simple
8
and clear.
9
Design awards
30 1
Performance measurement tools
The third step in the literature review and
2
preliminary data collection was to examine the
3
The second step of the review and gap analysis
mechanisms used in design awards for
4
was to assess the literature on development
assessing design quality. The RIBA awards
5
and use of performance measurements. This
focus on commodity, firmness and delight: does
6
showed:
the building work, does it feel right, does it
7
stimulate and engage the occupants and
8
visitors? Quality is judged in respect of:
9
•
Performance measurement is a process,
40
not a product. To be successful, the
•
indicators must fit the way people
•
Its fitness for purpose
1
understand their work and their projects.
•
Its relationship to its context
2
Historically, there has been very little
•
The spatial experience
3
attention placed on design quality in
•
Appropriateness of its structural and
4
servicing systems
5
Selection and detail of materials.
611
government initiatives to improve the performance of the construction industry.
•
197
Designing Better Buildings
The British Construction Industry Awards, on
The main output of the project was to be a
the other hand, recognise excellence not only in
flexible tool that would allow participants in
the overall design, but also in the construction
design and construction to measure the design
and the delivery of buildings and civil
quality of a building. The aim was to develop a
engineering projects. The judges take particular
generic tool, usable by professionals and users
note of the quality of architectural and
across a wide range of building types. The tool
engineering design and of construction, value
sought to cover all stages of a building’s life,
for money, application of quality management,
including conception, design, construction and
performance against prediction and client
in-use.
satisfaction. More detailed factors considered include:
The DQI tool acts a mediator between the front-line customer or end-user and the producer. It structures questions about the process, providing information that is easily
•
•
Concept: fitness for purpose, originality,
accessible to the designer and producer. It
application of research findings, benefit to
enables the designers to see where there are
the community.
differences in the expectations across the two
Design/planning: efficient use of materials
populations. The tool was developed with the
and labour, appropriate standardisation,
assistance of a group of leading architects,
appearance and environmental harmony,
engineers and clients, all of whom wanted a
pre-planning, selection and involvement of
practical tool that they could use in their
subcontractors, predictability of time and
everyday building projects.
productivity, team-building, value •
Design quality is multifaceted, involving
engineering.
a wide number of different interests and views.
Construction: management and teamwork,
Any attempt to assess the design quality of
enterprise and ingenuity, workmanship,
product should attempt to cover diversity of
safety, economy, application of R&D
activities and views associated with that
findings, performance against programme.
product. It should reflect the divergent character of design quality. All products are multidimensional. They have to fulfil a function
The DQI tool
but also to appeal to users across many different levels. For example, an office not only
The DQI project was managed by the
provides shelter for work, it also creates an
Construction Industry Council (CIC), supported
environment that has a major impact on the
by a Steering Group and a Reference Group,
performance of the organisation.
made up of over forty representatives from
The DQI tool was conceived of as
different parts of the design and construction
consisting of three parts: a conceptual
community. The former Department of the
framework, a data gathering tool and a
Environment, Transport and Regions (DETR)
weighting mechanism. The relationship between
funded the project. The main research
these different parts is shown in Figure 17.1.
contractor was the Programme on Innovation in the Built Environment at SPRU – Science and Technology Policy Research, University of
Conceptual framework
Sussex. The research team moved to Imperial College London, in 2003. The original aim of the project was to develop a tool for benchmarking design quality.
198
Design quality is considered to be multifaceted, involving a wide number of different issues, and the conceptual framework for the DQI
Jennifer Whyte, David Gann, Ammon Salter
Weighting algorithm DQI = F + I + BQ ×
was felt that owners and operators of buildings
111
may be more concerned with functional
2
performance and may not give consideration to
3
the impact of the building on the local
4
community. On the other hand, architects may
5
focus on the impact of the building without
6
giving high levels of consideration to its
7
functional performance. The tool attempted to
8
bring together these different concerns into a
9
common framework that recognises the
10
linkages between impact and function in design
1
quality. It sought to overcome the traditional
2
project draws upon the long historical
divide between impact and function in the
3
discussion of the multifaceted nature of design.
design process.
4
Function Build quality
Impact
DQI concept
17.1 The relationship between the DQI conceptual framework, weighting algorithm and data collection tool
Data collection tool
The visualisation of the DQI arose
5
Vitruvius, who described design in terms of
through three different models. The first model
6
firmitas, utilitas and venustas, translated in
was a cylinder in which design quality was a
7
English as commodity, firmness and delight,
reflection of having a series of attributes with
8
and echoing Platonic ideas of the good, the true
functionality at its core. This model was
9
and the beautiful. Modern theorists (such as
rejected because it did not account for the
20
Frampton, 1980) build upon this model when
overlapping character of the design quality. The
1
they discuss design in terms of space,
second model was three interlinked pyramids,
2
tectonics and meaning. As described in
representing function, flexibility and delight.
322
Chapters 15 and 16, we have sought to
This model was expanded into the third and
4
modernise these expressions to fit modern
final approach of the overlapping spheres.
5
This discussion is conventionally traced to
usage and practice, hence the DQI framework
6
focuses on function, build quality and impact.
7
The framework has been used to
Data gathering tool
8 9
develop the visualisation of the tool’s outputs. Once it was realised that the DQI would not
This questionnaire lists the questions and
30
generate results that could be considered hard
individuals respond to the questions. It was
1
and unambiguous, an alternative approach was
intended that the questionnaire be relatively
2
needed that focused on the visualisation of the
easy to fill out so that respondents could move
3
results. Through an iterative process of
quickly through the questions without being
4
development, a common framework was
overwhelmed by technical terms or jargon.
5
adopted that stressed the overlapping nature of
There was, however, a simultaneous concern
6
design quality. For example, lighting in a
that questions should not be simplistic or facile.
7
building can have a functional quality, such as
It was a difficult balancing act between creating
8
provide a bright and accessible work area, but it
questions that were useful, clear and direct, but
9
can also create an impact on the pleasure in
at the same time did not leave themselves
40
use of the building. The tool was designed to
open to the accusation that the tool was in
1
reflect these overlapping qualities.
some way dumbing-down design quality.
2
The first task in building the
3
The visualisation highlights the overlapping character of design quality in order
questionnaire was to develop a list of
4
to direct attention across the range of features
questions. At a meeting of the project’s
5
that are characteristic of high design quality. It
Reference Group a wide range of possible
611
199
Designing Better Buildings
questions was devised. Industry participants
development of the building. This information is
were divided into working groups and each of
used to sort the data for later analysis. Three
them was set the task of developing questions
main sections then record the respondent’s
for one category of the tool. Through this
opinions of various key aspects of the building.
exercise, the Reference Group produced a large number of potential questions for inclusion on
Section 1 of the tool focuses on function and has five subsections: location, siting,
the tool. These questions were added to a list
access, space, and use. For each of these
developed by the research team and the
categories there are series of detailed questions
Steering Group. The research team and
against which respondents indicate how well
Steering Group then edited and shaped this list
the design performs with respect to each,
of questions and produced Version 1 of the DQI
using a numerical scale (Figure 17.2). At the
tool. This was to become the basis of the
end of the section, respondents are asked to
questionnaire which, over time, was
assign weightings to the importance of each of
continuously reviewed and revised as part of its
these features to their building. This figure is
development.
used in the weighting mechanism of the tool.
The questionnaire begins with a broad
This approach is also used at the end of
and general introduction to the tool. This
Sections 2 and 3. For each question,
introduction is designed to be accessible to a
respondents have the option of answer ‘don’t
wide audience of potential participants. It asks
know’ and this means that their responses will
individuals fill out the questionnaire from their
not be counted in the weighting mechanism.
perspective and describes the goals of the tool.
Section 2 focuses on build quality and
A preliminary section of the questionnaire
contains five subsections: construction,
collects information about the respondent and
engineering systems, robustness, performance
the type of building. Individuals are asked to list
and integration. Section 3 explores impact and
their aims for the building and the stage of
contains five subsections: contribution to
Function Location and siting
Agreement (1 = strongly disagree, 4 = strongly agree)
Not applicable
F1 F2
The building is well located in relation to local facilities.
➀
➁
➂
➃
➄
The landscaping around the building is in harmony with the local ecology.
➀
➁
➂
➃
➄
F3
Public transport is convenient.
➀
➁
➂
➃
➄
Access
Agreement (1 = strongly disagree, 4 = strongly agree)
F4
➀
The layout and landscape around the building are conducive to easy access to
➁
➂
➃
Not applicable
➄
the building. F5 F6
The building provides safe and secure access for people.
➀
➁
➂
➃
➄
The building provides safe and secure access for goods.
➀
➁
➂
➃
➄
F7 F8
Directions and signposts in the building are clear.
➀
➁
➂
➃
➄
The building provides access for all.
➀
➁
➂
➃
➄
F9 The building caters for people with impaired sight. F10 The building caters for people with impaired hearing.
➀
➁
➂
➃
➄
➀
➁
➂
➃
➄
F11 The building caters for people with learning difficulties. F12 The building is accessible to wheelchair users.
➀
➁
➂
➃
➄
➀
➁
➂
➃
➄
200
17.2 Part of the DQI questionnaire used for scoring building attributes
Jennifer Whyte, David Gann, Ammon Salter
community and place, form and materials,
asked to ascribe relative weights to the three
111
internal environment, identity and character, and
main sections – function, build quality and
2
innovation and inspiration.
impact. Just as before with the subsection
3
In order to create a data source that
weightings (where scores of individual
4
would allow for comparison, few opportunities
questions within a subsection are modified by
5
have been made for open-ended responses
the weight ascribed to each subsection) so
6
which would be difficult to categorise and
again the scores for each subsection are
7
compare with each other. However, there is a
modified according to the relative weight
8
blank box at the end of each section, allowing
ascribed to each section by the respondent. For
9
respondents to write in their views. This
example, if a respondent’s weightings indicate
10
provides some opportunity for individual
that function is the most important aspect of
1
expression.
the building, their responses to the subsections
2
The last part of the tool focuses on the
within the function section of the questionnaire
3
constraints and enablers of the project. They
are magnified. This simple arithmetical
4
include issues such as the financial resources
weighting system may be developed further to
5
available to the project and its commitment to
become more sophisticated.
6
sustainability. These questions on constraints
7
and enablers help to weight responses. They help to raise the scores of buildings that score
8
Visualisation of results
9
well on the questions on the rest of the
20
questionnaire, yet also operate within a limited
Results from the questionnaire were weighted
1
financial budget.
and analysed in a spreadsheet. In the
2
representation of the results, it was sought to
322
make explicit the assumptions, and priorities
4
that went into their creation. The work of
5
Weighting mechanism
Jesinghaus (2000), on the representation of
6
The responses to the questionnaire are
controversial criteria for environmental
7
weighted using simple arithmetical formulae.
sustainability, was consulted. Visualisations are
8
After completing each section, respondents are
used in ways that make it possible to show
9
asked to ascribe relative weights to each of the
both the weightings ascribed to each of the
30
five subsections according to their opinion of
three sections, and the scores within each
1
how important they believe each is to that
section (Figure 17.2). In the web-based version,
2
section. So, for example, in Section 1 of the
colour is used in various intensities to illustrate
3
questionnaire, respondents ascribe relative
the scores within sections – dark for high
4
weights to location, siting, access, space, and
scores, pale for lower scores.
5 6
use. Their scores on individual questions are
7
modified according to the weights they ascribe to the relevant subsection. This helps to ensure
Piloting the DQI
8 9
that, for example, where a subsection is not considered by a respondent to be particularly
Pilots were used to test the usability of the
40
important, even if the building is rated highly in
Design Quality Indicator. In these pilots, there
1
that subsection, the overall score will not be
was a short presentation about the project,
2
biased by it.
then the participants spent about twenty
3
minutes filling in the questionnaire. After this,
4
that intent is expressed in the weightings. At
participants were interviewed separately or
5
the end of the questionnaire, individuals are
there was a group discussion using a semi-
611
There is another mechanism to ensure
201
Designing Better Buildings
Impact
Function
Function 45%
Impact 26%
Build quality
Build quality 29%
structured format. These interviews and
4
Brighton Library in Brighton will house the
discussions were used to elicit participants’
city’s public lending library. The project was
views regarding the questions, subsections,
at the design stage, and the project team
sections, weighting mechanism and overall DQI
participated in the pilot.
concept. The five buildings on which pilots were conducted were:
5
Brindleyplace in Birmingham is a major new office development. It had won many regional and national awards, and had
1
The Freeman Centre, near Falmer, Sussex,
Arthur Andersen as one of the tenants. The
is designed to house the University of
project team was joined by the facilities
Sussex’s research institute – Science and
manager from Arthur Andersen for this
Technology Policy Research (SPRU) and the
pilot.
University of Brighton’s Centre for
2
Technology and Innovation Management
The pilots led to the development of new
(CENTRIM). This £9.4 million project was at
versions of the questionnaire. Several questions
the detailed design stage. Both the project
were removed or revised based on suggestions
management group and the user group
from respondents. Respondents also
were participants in the pilot.
questioned several aspects of the tool. They
The National Ice Centre, in Nottingham
were concerned about the cross-building
provides a major stadium for training ice-
comparisons. They felt that many answers on
skaters and for holding national and
the tool were specific to the building itself. For
international ice-skating and entertainment
example, the Nottingham Ice Centre was
events. The DQI was piloted on phase 1,
designed to create an atmosphere, but most of
which is complete, and there is another
the questions on the questionnaire focused on
phase of development ongoing. The
minimising the impact of the environment on
project team reconvened to take part in this
users of the building.
pilot. 3
202
The pilots also indicated that it is difficult
The Peabody Trust’s Dalston Lane
to determine ex ante what the implications of
housing in London, provides social housing
using the tool will be for different projects. In
accommodation in the inner city. The
each project, there are tensions and debates
scheme also includes some shops and
about the design and the structure. The tool
office space. The DQI was piloted on this
allows for direct comparison between views of
completed residential and commercial
different actors involved in the project. These
development in the £1–5 million bracket.
direct comparisons can reveal differences in
The project team reconvened to take part
expectations and views about the project. For
in this pilot, and residents of the housing
example, in the Freeman Centre pilot, the two
were also encouraged to take part.
client representatives were much more critical
17.3 Visualisations are used to show results: left, each section weighted equally; right, different weights for the sections
Jennifer Whyte, David Gann, Ammon Salter
of the overall project than the architect and
111
Results of the pilots
2
engineers. This reflected the clients’ concerns about the lack of specificity in the current state
A vast amount of data was generated during
3
of the design. The results were presented to
the piloting process, and only a small portion of
4
the project team. They helped to facilitate a
this information is described here. Major issues
5
debate among them about the state of the
were encountered and resolved. Examples are:
6 7
design. This is an example of the benefits of Respondents found it difficult to know
8
whether to answer with regard to
9
aspirations, or perception of design. The
10
manager, facilities manager and user,
introduction to the questionnaire has been
1
employer’s agent and quantity surveyor,
changed to clarify this.
2
the tool in use that the research team did not
1
consider during its design stage. 17.4 (below) Contrasting evaluations by different members of a project team
Within a project the views of the project
Impact
Respondents did not relate the priorities
3
17.4. Their aggregate views are combined in
sections used for the weightings to the
4
Figure 17.5. These representations break the
terms used as subcategories headings. To
5
results down crudely at the section level only.
clarify this, questions regarding priorities at
6
the subcategory level were moved into the
7
sections themselves.
8
It is difficult to capture excellence in the
9
questionnaire, and yet sometimes things
20
are far better than good on a project. In
1
one pilot, the phrase ‘in harmony with the
2
local ecology’ was questioned as there are
322
more trees on the site now than there
4
were in the first place. The questionnaire
5
was revised with regard to this type of
6
occurrence.
7
For many of the pilots, the buildings in
8
question were multi-user. The users may
9
be widely different, for example, the
30
question ‘The building reduces stress for
1
users’ was difficult for the project team at
2
the National Ice Centre to answer for this
3
building – there are so many different types
4
architect and engineer are represented in Figure
17.5 (below right) The project team’s aggregated views from Figure 17.4
Function
1 Project manager DQI 5.447 Good quality, flexible, cost-effective office space
2
3
Build quality
Impact
Function
2 Facilities manager and user DQI 4.074 To provide a high quality, well maintained environment for staff. The building should enhance the image of the firm – proving us to be an employer of choice. To encourage new recruits to join
Build quality
Impact
Function
3 Employer’s agent and qs DQI 4.167 A functional and aesthetically pleasing building which is completed within the client’s budget. A building which is easily lettable
Build quality
4
5 Impact
Function
4 Architect DQI 5.113 Full tenancy, satisfied/comfort for the tenants, architectural awards for its contribution to the growth/planning in the area, no maintenance problems, longevity of materials and appropriateness for function
6 Impact 25%
7 8 Function 39%
9 40
Build quality
1 Impact
Function
5 Engineer
DQI
3.717
2 3 4 5
Build quality
611
Build quality 36%
203
Designing Better Buildings
of users – rock groups, amateur and
•
professional ice skaters, members of the
building procurers in better design. This
public who come skating, maintenance
use of the DQIs would fit in with the
staff, people who work in the building.
work of the Office of Government
This has been resolved by emphasising
Commerce (OGC).
the role of the person filling in the
•
questionnaire. 5
6
As a briefing tool to enable discussion within the project team, and between
Participants were confused as to whether
the project team and client and user
the questionnaire should be filled out from
groups. In this usage the differences
a personal point of view or as
between answers for the same
representative of one of the groups in the
building are most interesting and
projects – ‘Is this a personal thing? It’s not
significant. One member of a project
a company thing?’
team said that the questions ‘touched
For many of the pilots the buildings in
on things we clearly haven’t thought
question were multifunction. The questions
of’. He said that there were minor items
asked may not apply equally to the
that ‘we must not miss’ and that the
different parts of the building. For example,
questionnaire was useful as ‘a sort of
the Peabody Trust housing at Dalston Lane
checklist as we go through for things
has both residential and commercial space.
we must look at’. Another felt the
Wheelchair access is available in some
DQIs should ‘be client-led, and
parts but not in others (shops/housing). Is
undertaken from the beginning of the
this a failing of the project? Respondents
project. They could set a benchmark
felt it was necessary to separate out primary and secondary functions – car park
7
As part of a training package to train
for the project’. •
As a standardised procedure for
with office and some shops. The
measuring and monitoring product
questionnaire has been changed to deal
performance, through comparing and
only with the primary function of the
contrasting the aggregate answers for
building.
different buildings. Clear procedural rules
Defining the constraints and enablers which
about who fills in the DQI are required to
form the resource envelope was particularly
enable this form of application.
difficult. On all of the pilots it was recognised that time and money were important constraints, and that it was
Conclusion
necessary for the tool to reflect on the constraints. However, it was difficult to
This chapter has explained the development
shape questions to capture these
of a new generic tool which aims to explore
constraints. For example, questions on
the quality of design in buildings. The tool
good value for money and the profits of the
explicitly recognises that there is no single,
organisation were inappropriate for Peabody
universal result of design quality. Rather, it
Trust, as it has a social agenda rather than
caters for multiple viewpoints from
a financial one.
communities of design professionals and from user groups including lay people. The tool
During the piloting of the DQIs, many
has a unique starting point in that it is
previously unanticipated uses were suggested
designed to allow individual respondents to
and discussed by pilot participants.
calibrate the intentions and weightings they
204
Jennifer Whyte, David Gann, Ammon Salter
wish to give to different design attributes. It
111
References
2
therefore suggests an interactive, user-focused approach. The tool is based on a method that integrates measures of ‘hard’ physical attributes and ‘soft’ perceptual viewpoints about the performance of buildings in relation to design decisions. The former are typically found in areas such as build quality and function. The latter tend to be found in the measurement of impact or delight. The DQI is also capable of illustrating different levels of design value, moving from basic through value added and on to excellent. While we have proven the success of the first stage of development of the DQI, there is still further work to be done in refining its use for different applications across all building types. We have embarked upon a second phase of development including an improved questionnaire with a web-based interface to allow respondents to complete it online. Moreover, we are developing new ways of visualising the results to enable rich levels of analysis. We also plan to include new approaches for eliciting information about the enablers and conditioners that underpin the parameters of design. It is hoped that this approach will lead to a more informed debate about the value of design in buildings and will complement approaches to measuring performance in design and construction processes.
Arthur, B. (1987) ‘Path-dependent processes and the emergence of macro-structure’, European Journal of Operational Research, vol. 30, pp. 294–303. Brand, S. (1994) How Buildings Learn, New York: Viking Penguin. Clausing, D. (1994) Total Quality Development, New York: ASME Press. Construction Task Force (1998) Rethinking Construction, London: Department of the Environment, Transport and the Regions. DCMS (2000) Better Public Buildings: A proud legacy for the future, London: Department for Culture, Media and Sport. Duffy, F. and Henney, A. (1989) The Changing City, London: Bulstrode Press. Frampton, K. (1980) Modern Architecture: A Critical History, London: Thames and Hudson. Harbraken, J. (1972) Supports – an alternative to mass housing. Oxford: Architectural Press. Harbraken, J. (1998) The Structure of the Ordinary – form and control in the built environment, Cambridge, MA: MIT Press. Jesinghaus, J. (2000) A European System of Environmental Pressure Indices, Ispra: European Commission, Joint Research Centre, Institute for Systems, Informatics and Safety. Male, S. Kelly, J. et al. (1998) The Value Management Benchmark: a good practice framework for clients and practitioners, London: Thomas Telford. Monden, Y. (1983) Toyota Production System, Norcross, GA: Industrial Engineering and Management Press. Schonberger, R. (1982) Japanese Manufacturing Techniques, New York: Free Press. Smith, P. G. and Reinertsen, D. G. (1998) Developing Products in Half the Time: New Rules, New Tools, New York: John Wiley and Sons, Inc. von Hippel, E. (2001) ‘User toolkits for innovation’, Journal of Product Innovation Management, vol. 18, pp. 247–57. Ward, A., Sobek, D.K., Cristiano, J.J. and Liker, J.K. (1995) ‘Toyota, concurrent engineering and set-based design’. In J. K. Liker, J. E. Ettlie and J. C. Campbell (eds) Engineering in Japan, Oxford: Oxford University Press. Womack, J. P. and Jones, D. T. (1996) Lean Thinking: banish waste and create wealth in your corporation, New York: Simon & Schuster Inc. Zimmerman, A. and Martin, M. (2001) ‘Post-occupancy evaluation: benefits and barriers’, Building Research and Information, vol. 29, no. 2, pp. 168–74.
3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
205
Chapter 18
Housing quality indicators in practice Paul Wheeler
The Housing Quality Indicator (HQI) system was
Corporation Scheme Development Standards (in
developed by DEGW on behalf of the then
England) and Tai Cymru Pattern Book Plans (in
Department for the Environment, Transport and
Wales), while in the private sector, instruments
the Regions (now the Department for Transport,
such as the Building Regulations and Health
London and the Regions) and the Housing
and Safety Executive regulations provide
Corporation. This chapter describes the HQI
minimum standards. However, the fact remains
system and discusses issues relating to
that large parts of Britain’s housing stock are
accuracy, usability and application which
below the standards that would be expected in
emerged from the first large-scale pilot trials of
other north European societies. A comparative
the system.
study of the control and promotion of housing
Problems of quality in housing are widely
quality across Europe found that the lowest
recognised. Age of housing stock is a particular
standard for the minimum size of dwellings is
problem in some regions of the United
found in Great Britain, with neither statutory
Kingdom, particularly London, where 59 per
requirements or conditions of subsidy relating
cent of the housing stock was built before 1945
to size of dwelling (Sheridan et al., 1999).
(DTLR, 2000a). However, more recent housing is not necessarily of higher quality. There is a long history of efforts to
In the absence of some explicit measure of quality, from the 1980s onwards cost has been an increasingly important factor in the
ensure quality standards in social housing.
funding of social housing. There is a
However, explicit attempts to ensure quality,
widespread perception that in recent years
such as those established by Parker Morris in
reductions in housing cost have been achieved
the 1960s, were abandoned in the 1980s.
at the expense of quality. Cost was used by the
Minimum standards in social housing were
Housing Corporation as one of the key criteria
established by instruments such as the Housing
for Housing Association bid selection, leading to
206
Paul Wheeler
fears that a ‘bed spaces per pound’ approach
successes and mistakes. The Government
111
was emerging, allowing the creation of housing
recognises that ‘our homes can influence our
2
with inadequate room sizes and poor estate
well-being, our sense of worth and our ties to
3
facilities (DETR, 1997).
our families, the local community and work’
4
(DTLR, 2000b). The overall purpose of the HQI
5
system is to ensure that housing built today
6
and in the future contributes positively to that
7
goal.
8
The role of Housing Quality Indicators
9 10
Through the 1990s there was a general recognition that the combination of cost,
An overview of the HQI tool
1 2
statutory regulations and minimum standards described above did not necessarily ensure
For a quality assessment tool to be of use it
3
quality or value for money in housing provision,
must meet certain criteria. First and foremost it
4
and could not be used to determine whether
must be accurate. The accurate assessment of
5
housing is likely to meet the current and future
quality in something as complex as housing is a
6
needs of occupiers. The Department for the
difficult task. Individual perceptions of what
7
Environment, Transport and the Regions (DETR)
constitutes quality differ, with quality
8
therefore saw the need to develop a method
judgements generally based on a combination
9
for the evaluation of housing which directly
of subjective and objective elements. Issues of
20
assessed quality. The Housing Quality Indicator
measuring design quality are discussed
1
(HQI) system was developed to perform this
elsewhere in this publication; the HQI system is
2
role.
necessarily based on the assumption of some
322
common basis for quality judgements.
4
In October 1996 the DETR and the Housing Corporation commissioned DEGW to
Second, the system must be practical.
5
develop a system of HQIs tailored to the
At a minimum the cost of applying the tool
6
Housing Corporation’s requirements, but
must be proportionate to the value generated
7
suitable for more widespread use in the
by its use. During the development of the HQI
8
evaluation of both social and private-sector
system considerable efforts were taken to
9
housing. The first version of the HQI system
ensure that the system could be used by a
30
was published in February 1999 (DETR, 1999).
wide range of housing professionals, and that
1
completion of the assessment would not
2
system were formulated to allow a range of
impose too high a burden on the user in terms
3
uses. Registered Social Landlords (RSLs) and
of the information required.
4
The structure and application of the HQI
other developers can use the system to
The HQI system allows an assessment
5
improve the quality of new housing schemes: a
of quality of the key features of a housing
6
key application is to allow the evaluation of
project in relation to location, design and
7
different schemes against a fixed brief. The
performance. There are ten Quality Indicators,
8
process of completing the HQI assessment
listed below:
9 40
should enable potential developers and architects to make design decisions that result
1 Location
1
in higher quality housing with minimal cost
2 Site: visual impact, layout, landscaping
2
implications. By applying the HQI system to
3 Open space
3
existing developments, RSLs and developers
4 Routes and movement
4
should be able to monitor their success in
5 Unit size
5
achieving good HQI scores and learn from their
6 Unit layout
611
207
Designing Better Buildings
7 Unit noise control, light quality, services
extended to achieve this aim. There are
8 Accessibility within the unit
therefore variances between sample and actual
9 Energy, green and sustainable issues
housing stock composition. For example, the
10 Performance in use
private sector is under-represented, comprising around 30 per cent of the sample compared to
For each Indicator 20–30 questions must be
68 per cent of actual housing stock (DTLR,
completed by an assessor. A completed HQI
2000a). The sample differs further from typical
assessment generates separate scores for each
housing stock in that the schemes selected for
Indicator and results in both a profile of the
assessment had all been built or refurbished
scheme and an overall HQI score. The system
within the last five years. The final composition of the sample was
was developed such that quality is evaluated from many different aspects, so there is no
determined by the willingness of organisations
single way to achieve a good score, just as
and commercial builders to participate in the
there is no single way to achieve quality.
exercise. All participating organisations were asked to propose three schemes, of what they felt to be of varying quality, for assessment.
The pilot trials
Securing participation from private sector builders proved difficult: many of those
During the first phase of HQI development,
approached declined to take part in an exercise
completed in 1998, the system was piloted
that they did not perceive to offer them any
among a sample of residential social landlords
benefits. Figure 18.1 shows the composition of
(RSLs). In late 1999 DEGW were commissioned
the sample. Two broad conclusions emerged from
by the DETR to conduct a series of larger-scale pilot trials, this time covering the private sector
the pilot trials:
as well as social sector housing. The aims of the pilot trials were to:
–
The system is an accurate tool for measuring housing quality across a broad
• •
Assess performance of the existing version
range of housing types, but further
of the HQI system,
developments to the HQI are required to
Gain a better understanding of the HQI’s
ensure that it accurately assesses quality in the private sector.
usability in private as well as social sectors, • •
Gauge its effectiveness when applied to
–
The assessment procedure is practical and
new and refurbished housing, and
can be carried out by a wide range of
Answer the question ‘Does the HQI system
housing professionals given a minimum
really measure quality?’
level of experience and training. During the trials some participants experienced
The assessors in the trial completed
considerable difficulties in assessing their
assessments of thirty-one housing schemes
schemes. These stemmed largely from
from twelve different developers. The main aim
their unfamiliarity with the tool. However,
in selecting the sample was to include a range
the research team did make a number of
of schemes that would broadly reflect the
suggestions relating to clarity and ease of
diversity of tenure, size, location and type found
use that have been incorporated into the
in the UK housing stock, and this aim was
second version of the system.
achieved. The trial results were not intended to be statistically representative; the scope of the
More detailed findings, and a discussion of
trial would have had to be considerably
issues raised by the pilot trials, follow.
208
Paul Wheeler
Research results
high of 77 per cent to a low of 42 per cent,
111
with an average overall score of 55 per cent.
2
The results of the pilot demonstrated a good
The schemes are relatively evenly spread with
3
degree of discrimination between the schemes,
some concentration of schemes close to the
4
indicating a good spread in housing quality over
average. That the highest score went to the
5
the selected sample. The scores achieved by
most recently built scheme in the sample, a
6
the thirty-one schemes surveyed ranged from a
prototype intelligent house, came as no surprise
7 8 9
Type Total
Private sector
9
New
8
Location
Refurb.
Urban
1
Suburban
5
4
10
Size (number of units) Rural
1
Small <10
Medium 10–50
Large >50
1
3
5
1 2 3 4
RSL
18
14
4
13
2
3
6
10
5
2
6 Local authority
3
0
3
3
0
0
0
2
1
Housing Action Trust
1
1
0
1
0
0
0
0
1
Total
31
23
8
22
5
4
7
15
9
7 8 9
18.1 Pilot sample of housing schemes
20 1 2
322 HQI average profile
Average across 31 schemes
100%
4
Minimum
5
Maximum
6 7
90%
8 80%
9
70%
30 1
60%
2
50%
3
40%
4 5
30%
6
20%
7 8
10%
9 0%
40 1
2
3
4
5
6
7
8
9
10
11
Overall score
Indicators key:
18.2 HQI Average profile
1 2 3 4 5
Location Site: visual impact, layout, landscaping Open space Routes and movement Unit size
1 2
6 7 8 9 10
3
Unit layout Unit noise control, light quality, services Accessibility within the unit Energy, green and sustainable issues Performance in use
4 5
611
209
Designing Better Buildings
to the research team. The oldest development
perceptions of quality. The results from the
assessed, a recently refurbished inner city block
research team, residents, and builders or
of flats, achieved the lowest score.
developers were compared to assess how
Figure 18.2 shows the average HQI scores for each Indicator across the 31 schemes. Of the ten Indicators, (1) Location, (2)
individual perceptions of quality correlated to the HQI scores. The correlation between researchers’
Visual impact and (4) Routes and movement
perceptions of scheme quality and the survey
scored relatively highly, with scores of 65 per
results was high. The overall ranking of the
cent or above. The sample averages for (3)
schemes was generally as expected. The
Open space, (5) Unit size, (6) Unit layout, (7)
innovative housing scheme, which the research
Unit services and (10) Performance in use were
team considered the highest quality scheme,
slightly lower, between 49 per cent and 57 per
ranked first in the overall scoring. A circa 1900
cent. Only on the Indicators for (8) Accessibility
high density flat development with below
and (9) Energy, green and sustainability issues
standard unit and room sizes, which was
did the sample averages fall below 50 per cent.
considered by the research team to provide a low standard of housing accommodation, ranked the lowest.
Correlation between HQI scores and individual perceptions of quality
On the whole, developers and landlords considered that the HQI scores correctly ranked their schemes for quality. However, they felt the overall scores were lower than expected.
The issue of whether quality can be measured
They did not, however, have the benefit of
was discussed at length during the
comparing their scores to those of the other
development of the HQI system. To address
schemes sampled, and what they considered
the question of whether the HQI system
low scores were often average or above
genuinely measures quality, the pilot trials
average for the sample as a whole.
compared information from four different
Despite offering a financial incentive for
perspectives: the HQI score, and the
completion, the response rate to the resident
researchers’, residents’, and developers’
survey was poor. From the small number of
perceptions of quality.
questionnaires returned no overall correlation
Before the assessments were
between resident perceptions and HQI scores
completed the research team visited each
could be observed. There was, however, a
development to make an independent quality
tendency for occupiers’ perceptions of housing
judgement. These initial perceptions were
quality to be higher than those measured by
recorded together with photographs of various
the HQI system. The fact that all occupants
features contributing to the judgement. To
were living in new or refurbished housing may
capture user perceptions, questionnaires were
have had an impact on their perceptions.
distributed to the residents of the schemes
Interviews with tenants suggested that their
assessed. These questionnaires asked a wide
assessments were heavily coloured by past
range of questions about residents’ perceptions
housing experience.
of quality, with each question correlating to one of the Indicators in the HQI system. Finally the scheme builders or developers were
Accuracy of the HQI system
interviewed after their assessments were completed, to assess the extent to which the
As noted above, one of the questions the
HQI scores generated corresponded to their
pilot set out to address was the degree to
210
Paul Wheeler
18.3 Scheme 30: Despite thoughtful refurbishment, as a result of small room and overall unit size this development achieved the lowest score of the sample
built into the system between number of
111
occupants and provision of living and eating
2
space. For example, dwellings score poorly
3
where there is insufficient space for all
4
occupants to sit around a table and eat
5
together.
6
Private sector developers noted that the
7
assumption of ‘full occupancy’ described above
8
runs contrary to the designed and actual use of
9
their housing. In private housing, the number
10
and size of rooms reflects ability to pay rather
1
than need; bedrooms do not tend to be
2
occupied permanently or to their full capacity.
3
Within the HQI system there was no scope
4
for designating a room as a spare bedroom,
5
i.e. one that was only occasionally occupied.
6
Few large dwellings, where some of the
7
bedrooms are spare bedrooms, provide dining
8
which the existing system could be used in
rooms of sufficient size for an assumed ‘full
9
assessing private sector housing and a wider
occupancy’.
20
range of types of housing, such as new and
1
Reassessing schemes on the basis of
recently refurbished housing. A number of
developer estimates of likely occupancy
2
issues relating to this emerged during the
resulted in dramatically improved scores for
322
trials.
Unit size. Reassessing a large detached private
4
house led to the score for Unit size rising by
5
clearly driven by different factors, and some of
19 per cent and the overall HQI score rising
6
these differences have implications for the
by 3 per cent.
7
Social and private housing markets are
accuracy of the HQI system. One such
8
Another issue of accuracy which was
difference is that whereas the size and layout
raised in the pilot trials related to the
9
of social housing are based on the need to
assessment of location. Participants in the trials
30
house people, the size and layout of private-
expressed some concern that the HQI system
1
sector housing are driven by customer
exhibited an urban bias and discriminated
2
expectations and their ability to pay for these.
against rural developments as a result of the
3
inclusion of ‘location’ as a Quality Indicator. The
4
developments were consistently and
inclusion of this category generated
5
significantly reduced due to assumptions built
considerable discussion during the development
6
into the HQI system about occupancy levels,
of the HQI system. The locational features
7
and the form in which some questions were
assessed are not qualities of the housing
8
expressed. The HQI system assumes ‘full
development, but of the surrounding area, with
9
occupancy’ of a dwelling in relation to the
scores based on proximity of amenities and
40
number and size of bedrooms. Therefore a
liabilities.
1
HQI scores for private sector
It could be argued that the inclusion of
2
bedroom has an assumed occupancy of five
location into the system extends the scope of
3
people. The level of occupancy impacts
the Indicators beyond housing quality. However,
4
significantly on a scheme’s scores for Unit size
the decision to include location as an Indicator
5
and Unit layout, as a result of the relationship
is based on the view that context is an
611
house with two double bedrooms and a single
211
Designing Better Buildings
important contributing factor in good design:
for all Indicators except (1) Location, in line with
locational context contributes to the
other rural schemes, as discussed previously. It
experienced quality. Assessments of quality
was the only scheme to score highly on
must therefore take locational context into
Indicators (8) Accessibility within the unit, (9)
account.
Energy, green, and sustainable issues, and (10)
During the pilot, use of the HQI system
Performance in use. The scheme performed
to assess rural developments did not seem to
particularly well on (9) Energy, green and
pose particular problems. Rural schemes’
sustainability issues, reflecting the energy
scores were lower in the Location category
saving technologies incorporated and the green
due to travel distances to amenities. However,
approach to construction. The research team
overall there was no significant difference
found it encouraging to see a highly innovative
between the scores for rural and urban
housing solution scoring so well.
schemes, suggesting that lower scores on
However, the scheme’s score for
location were compensated for by higher
Indicator (6), Unit layout, was depressed
scores on other Indicators. Indicator 3 assesses
(although still above average) as the scheme
access to open space: rural schemes typically and understandably gained higher scores than urban schemes in this Indicator. Some organisations found completion of the Location Indicator difficult and timeconsuming, while others found it straightforward and uncomplicated. Ease of completion of this Indicator appeared to be influenced by the extent of the assessor’s knowledge of the area and understanding of the context within which the development was located. A third issue relating to accurate measurement of quality was highlighted by the performance of the most innovative housing scheme included in the sample. This scheme was located in a rural village and was described as: Pair of semi-detached houses completed in 1999, built as an innovative prototype housing project. The houses incorporate numerous energy saving and environmentally friendly technologies. Isolated rural village with few amenities and poor public transport links. Village with mixed housing types – thatched cottage to RSL prefabricated houses. This scheme outperformed all other schemes in the sample. Its score was well above average
212
was based on an open-plan, flexible layout. Open plan layouts integrate living space and circulation space, whereas the HQI system awards higher scores for unit layouts where circulation space is separate from living areas. Whether open plan layouts genuinely reduce quality is an open question. While a large family may find the separation of circulation space from living accommodation important for their quality of life, this separation may be considered unnecessary by other types of occupants and may lead to a poor utilisation of the available space.
18.4 Scheme 28: This innovative and highly energy efficient development achieved the highest score in the trials
Paul Wheeler
Usability of the HQI system
Fifty per cent of the scores for this Indicator are
111
awarded on the basis of the ‘furniture exercise’.
2
The HQI system was developed with ease of
This exercise raises some questions about how
3
use in mind. An important element in its ease
quality should be assessed, and will therefore
4
of use is the fact that assessment can be
be examined in some detail.
5
based on analysis of plans and other
The HQI system specifies for each room
6
information, removing the need to enter
in a dwelling the furniture that should fit in the
7
individual units. However, although plans and
room. In addition the activity and circulation
8
other information are available for new
spaces are specified. Units that can
9
developments, they may be difficult to acquire
accommodate all the specified furniture and
10
when assessing older developments.
activity zones achieve mid-range scores; higher
1
or lower scores can be achieved by fitting in
2
usability of the system, HQI assessments have
more or less furniture or activity zones than
3
been carried out by the builder or developer
specified. This ‘furniture exercise’ seems a
4
responsible for the scheme. These participants
highly prescriptive approach to achieving quality.
5
were briefed on the overall aims of the pilot
Not only is a furniture list specified for each
6
and on the HQI system and then left to
room in a dwelling, and the number of items on
7
this list correlated with the number of
8
occupants, the dimensions of each item of
9
furniture are specified.
20
In order to gain understanding of the
complete the assessment themselves. Once the assessment had been completed the research team returned to debrief them on the problems and issues that had been raised in the process. Size of scheme had some impact on usability of the HQI system. As expected, the surveys of larger schemes proved more difficult and time-consuming to complete than those of smaller schemes. The HQI system is based on assessment of each unit in a development, and the pilot trials demonstrated that this may be impractical when assessing very large developments with numerous unit types. To address this problem suggestions have been made on when sampling techniques can be used to simplify the process. In addition,
There was considerable discussion over
1
this Indicator – the research team involved in
2
the pilots were initially sceptical of its utility.
322
There was some discussion over whether the
4
furniture exercise should be replaced with a
5
simpler form of assessment based purely on
6
room dimensions and proportions.
7
If we consider how the HQI system is
8
designed to be used, the exercise makes
9
much more sense. The HQI system was not
30
primarily designed to be used as a post-
1
construction audit; at that point opportunities
2
for improving quality have been lost until the
3
next project. The HQI system was developed
4
to be an integral part of the design process,
5
it was found that schemes split over multiple
employed throughout the evolution of the
6
sites posed significant assessment problems,
design to enable designers to track the quality
7
and it has been recommended that in such
impact of their decisions. At this stage the
8
schemes each site should be assessed
designers should be thinking about how
9
separately.
occupants will use the space being created.
40
Some occupants may choose far more
1
completion of Indicator (6), Unit layout, proved
minimalist furniture layouts than those allowed
2
the most time-consuming and difficult.
for in the HQI system. However, a design that
3
Recognising that housing quality is dependent
accommodates the furniture-intensive layout
4
not only on size but on layout and configuration,
will also accommodate more minimalist
5
Indicator 6 assesses units on their usability.
solutions.
611
Outside of sheer size and complexity,
213
Designing Better Buildings
The ‘furniture exercise’ was either not
before they were able to carry out an
completed, or only partially completed, by a
assessment. While this was in part due to
number of developers during the pilot. In these
unfamiliarity, the research team feel that
cases the research team completed the
consideration should be given to the
exercise. In addition the research team
development of a more comprehensive briefing
reassessed some schemes on this Indicator to
document.
check that the exercise had been completed accurately. As a result of this the team gained direct experience of the usability of this
Conclusion
Indicator. Our conclusions were that when assessing small, poorly-shaped rooms
This was the first real live pilot study of the
considerable effort was required to achieve a
HQI system across a diversity of housing types.
reasonable score. However, given a well
The results suggest no significant problems
proportioned room of reasonable dimensions
which could not be solved through slight
assessment was swift and straightforward. With regard to prescriptiveness, the exercise does prescribe in the sense that to achieve a high score a unit must be able to accommodate a certain quantity of furniture. The exercise does not prescribe particular room dimensions or proportions. While, as noted above, small irregularly shaped rooms achieve low scores, large irregular rooms can score highly. In keeping with the overall ethos of the HQI system, Indicator 6 does not suggest that there is only one route to achieving quality. The research team did recognise that when performing an assessment postcompletion, particularly in cases where plans are unavailable or incomplete, Indicator 6 is time-consuming and difficult to complete. To
revisions to the HQI. These revisions have now been incorporated into the revised version. No major discrepancies between quality as perceived by housing professionals and as recorded by HQI scores were revealed in any of the housing schemes surveyed. The HQI system will become easier to use as its application becomes more widespread. Training for HQI assessors should also ease problems relating to completion and ensure accuracy. One further conclusion may be drawn from the experience of the pilot. We know relatively little about how homes are used. The majority of housing built today differs little in terms of the designed space use from housing built 100 years ago. Over this time the nature
ameliorate this problem the team suggested
of the household has changed dramatically, as
that an alternative assessment method should
have many other aspects of our society. It may
be included. This recommendation has been
be that there is no need for housing design to
adopted in the revised version of the HQI
change to adapt to our new social patterns.
system as Room Matrix Approach. This
Perhaps traditional designs have an inherent
alternative assessment method is based on
flexibility allowing them to accommodate these
room proportions and dimensions. However, it
changes. There seems to be little research that
is noted that developments assessed using this
would enable us to tell. The development of
alternative system are likely to achieve lower
the HQI system represents a step forward in
scores, particularly if room proportions diverge
the struggle to improve the quality of housing
from the ‘ideal’, than when assessed using the
and the build environment in general.
‘furniture exercise’.
Ultimately, if we are to continue making
Finally, the piloting process revealed a need for extensive briefing of participants
214
progress a deeper understanding of how our homes are used is vital.
Paul Wheeler
111
Acknowledgement
References
The author would like to thank his colleagues in
DETR (1997) ‘Housing Quality Indicators: feasibility study’, Housing Research Summary No. 70, London: DETR. DETR (1999) Housing Quality Indicators: research report and indicators, London: DETR. DTLR (2000a) Housing Statistics 2000, London: DTLR. DTLR (2000b) Best Value in Housing Framework, London: DLTR. Sheridan, L. et al. (1999) ‘A comparative study of the control and promotion of quality in housing in Europe’, Housing Research Summary No. 99, London: DETR.
2
DEGW for their contributions to this chapter and would also like to thank the individuals from public and private sector organisations who gave their time to make the pilot exercises possible.
3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
215
Index
Note: Page numbers in italics refer to Figures and Tables; prefix ‘Pl.’ indicates a colour plate, suffix ‘n[]’ a note
Accelerating Change report 8 adaptability of building(s) meaning of term 154; see also flexibility adaptive opportunities 7, 152 AIDA (An Incremental Design Approach) 75 air quality, effect on productivity 45, 81 AMEC projects 162–9 analytical hierarchy process 66 appealing and appropriate design 35–7 architects new skills 39; in partnering arrangements 38; resistance to measurement 178; role in projects 157 architectural quality barriers to achieving 68; valuation of 68–9 architecture, contribution of 6 BA (British Airways) Waterside building, Heathrow 47, 61, 63, Pl. 10–11 and corporate cultural change 61, 68; efficiency savings 61, 69 BAA (British Airports Authority) airport pavement work 168–9 Bathampton School 88 baths, therapeutic 110 BedZED (Beddington Zero Energy Development), Sutton, Surrey 35, 36, Pl. 1–2 benchmarking 165–6, 195 Better Places to Live (joint CABE/DTLR publication) 72–3 Better Public Buildings publication xv, 2, 197 A Better Quality of Life (DETR publication) 3 Blenheim Palace 158–9 Boots D90E Extension, Nottingham 58–9, 68 Boots Warehouse, Beeston, Nottingham 162–3 BP Sunbury buildings 52, 83–4 BREEAM approach 196 Brighton Library 202 Brindleyplace, Birmingham 123, 202 Bristol & West Headquarters 52, 80–3 efficiency savings 83 British Construction Industry Awards 198 216
build quality, in design quality indicator 181, 182, 199 Building Centre Trust, Templeton College seminar 186, 187 Building Down Barriers initiative 141, 163 benefits 168; design quality indicators 189; principles 163 building management systems, performance statistics from 29 Building Performance Research Unit 22–3 reason for closure 23 built environment, four-function model 8 Burnham Copse Infants School, Hampshire 90–1, 91 business benefits of feedback 31 ‘business emissions’, and decision-making process 83–4 business value 64 business value building 5–6 By Design – Urban Design in the Planning System (CABE/DETR publication) 117 CABE (Commission for Architecture and the Built Environment) 3, 197 evidence on value of design 6–7; on failing standards of design 183; on healthcare buildings 184n[9]; principles of good design 4; on school design 87, 98, 184n[9]; on urban design 117 capital:maintenance:people cost ratio 15, 43 effect of good design 9 Capital One European Headquarters, Nottingham 58, 68, Pl. 6–7 carbon dioxide emissions from travel to work 80; savings 84; trading system 84 ‘carbon-neutral’ designs 35, 36, 84 CCC (Confederation of Construction Clients) 13 feedback research 14, 17–18 Charles, Prince of Wales, on principles of good design 3–4 Charter see Construction Clients’ Charter
Index
churn, effect of building flexibility on cost 47–8, 73, 81 clients faults 158; perspectives 1–49; requirements 5–6, 16 clustering 166 commensurability, and valuing design 64 community schools, early example(s) 89 computer-based modelling techniques 46 Constructing the Team see Latham Report Construction Clients’ Charter 13, 18–19 initial responses 19–20; on leadership and focus on client 18; on people 19; on product team integration 18–19; on quality 19 Construction Industry Council Design Quality Indicators 136, 176, 186, 198; see also design quality indicator(s) Construction Task Force report see Egan Report contingent valuation 66 contractors, faults of 158 corporate cultural change, and design 59, 61, 67–8 cost-benefit analysis 66, 68 cradle-to-grave approach 30 creative imagination 186 CRISP (Construction Research and Innovation Strategy Panel) on adaptability and flexibility in buildings 23; definition of design 131, 135; and feedback 23–5; on matching design assumptions and conditions in use 23–4; on post-occupancy evaluation 24–5 CRISP Design Task Group design realms map 138, 185–6; recommendations 136–7; terms of reference 136 critical mass (to deliver better urban design) 128 Cubitts (builders) 38 customer focus, Egan report on 72, 176 Dalston Lane development, London 37, 202, 204 demolition, costs compared with refit 48 dependency cultures, and flexibility of building(s) 152, 154–5 Derbyshire, Henry 38 design definitions 1, 131, 135, 161, 191; phases 186; as value generator 1–11 design awards, mechanisms used to assess design quality 197–8 design chains 161–2 management aspects 162 design champions 66, 67 design and construction phase, cost aspects 45–6 design process 38–9, 137, 138, 186, 191–2 design quality and clients 16–20, 140; constraints on 179, 190–1, 191; impact in 181, 182; language for 140–1; rewards resulting from 39; see also good design design quality indicator(s) 7–8, 136, 176–7, 177–82
alternative uses 204; conceptual framework 182, 189, 190, 198–9; contrasting evaluations by team members 203; data-gathering tool 192–3, 199–201; development of 179–82, 188–9, 205; difficulties with questionnaire 203–4; in healthcare buildings 114, 193; key strength 178; origins 136, 176, 186, 196, 198; pilot studies 193–4, 201–3; purpose 178, 198; questionnaire for 192–3, 199–201; in schools 87; sections and subsections 181, 193, 200; visualisation of results 199, 201, 202, 203; weighting mechanism 201 build quality in 181, 182, 199; functionality in 181, 182, 199; impact in 181, 182, 199; see also design quality indicator(s) designers challenges for xv-xviii; relationship to supply chain 161–2; see also architects difficulties in projects, factors affecting 132, 159 DQI tool see design quality indicator(s) Dudley Waterfront Business Park 123 Dyson Research and Appliances Headquarters, Malmesbury, Wilts. 57
111
Eco-Factor performance 84 economic value of good design 8–9 Ecopoints system 196 Egan Report (Rethinking Construction) 1, 16, 38, 72 on performance measurement 176, 186 employee satisfaction 67 energy costs 47, 82 energy-saving designs 35, 36, 57, 73–80, 82, 84 environmental factors, impact of 188 environmental issues 35, 47 environmental qualities, subjective and physical 189 exchange value 63, 66 exchange value building(s) 5 experimental aspects of construction projects 29
9
2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 20 1 2
322 4 5 6 7 8 9 30 1
facilitated discussions (for feedback studies) 28 Federal Facilities Council, on post-occupancy evaluation 25–6 feedback benefits 27; factors affecting 29–31; insufficiency of data 29; levels to implementing 27–8; and post-occupancy evaluation 30; and project delivery 31; in real world 30; in recent reviews 23–7; research by CCC, 17–18; resources for 21; techniques 22, 27–9; time constraints of clients 29–30 Finsbury Health Centre 110 flexibility of building(s) 47–8, 145–56 and action near to need 153–4; approaches 155–6; complexity vs manageability 147; costs 48, 154; dependencies/interactions 151–2, 154–5; future developments 155; and hierarchical ‘layering’ 151, 155; how much needed 154; meaning of term 154; prudent points on 147; self-managing 146–50; side effects 148–9, 150; strategies 217
2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
Designing Better Buildings
for 150–1, 152; symptoms of demand 151–2; and technology-management interactions 146–7; timescale 154; vicious circles 147, 150; viewpoints on 152–3 focus groups, on design of healthcare buildings 101 foresight reviews 28 fragmentation, savings due to avoidance 80–1, 83 Freeman Centre, Sussex 202 functionality, in design quality indicator 181, 182, 199 fuzzy logic, in valuation 66 generic buildings 150, 155 Gershon gateway process 192, 193 global companies 39, 42 globalisation, advantages 150 good design client’s perspective 33–41; economic value of 8–9; principles 3–5; social value of 8–9, 17, 35–6; stakeholders benefiting from 140; see also design quality good project(s), CABE guidance 4 government procurement policy 160; see also PFI Great Notley Primary School, Essex 93 Greenwich Millennium School 95, Pl. 13–14 Hampshire County Council schools 53, 90–2 Haute Valley School, Jersey 96, 97 Haverstock School, Camden 96–7 Haverstock School (Victorian building) 89 health promotion schemes 110 healthcare buildings 53–4, 100–15 caring model 109, 111; contemporary model 112–14; custodial model 107, 111; healthpromoting model 110–11, 112; holistic model 109–10, 111; hospital wards 100–6; medical model 108–9, 111 heating and ventilation systems, in offices 74–80, 149 hedonic pricing 55, 66 hierarchical ‘layering’ of building systems 151, 155 hierarchy of needs 139, 143 Hilton Hotel, Heathrow 62–3 hindsight reviews 28 Holland House, Newington Green 35 hospices 109 hospital wards appearance 103, 106; bathroom/shower/toilet areas 103; cleanliness lacking 103, 106; effect of design 100–6; Nightingale ward layout 31n[3], 108; noise levels 103; privacy 103; view from 103, 104 housing associations developments by 33; see also Peabody Trust Housing Corporation standards 206 Housing Forum 38 Housing Quality Indicators 196, 206–15 accuracy 210–12; correlation with individual perceptions of quality 210; furniture layout exercise 213–14; future research required 214; location as indicator 211–12; and 218
occupancy levels 211; overview 207–8; pilot trials 208; research results 209–10; role 207; unit layout indicator 212, 213; usability 213–14 HQI system see Housing Quality Indicators human capital 65 measurement of 66 Hyett, Paul, quoted 157 image value building(s) 5, 34, 44, 45 impact, in design quality indicator 181, 182, 199 incremental design approach 52, 75–9 indoor air quality, effect on productivity 45, 81 indoor air temperatures control systems 77–9; effect on productivity 78, 79, 81 innovation, and design 38, 141, 160–1 inseparability, and valuing design 64 insight reviews 28 intangibles, in valuation methods 9–10, 17, 64 integration of design into construction process 160 examples 162–8; tools and techniques used 165, 169 intellectual capital 65 ‘intelligent’ lighting system 73–4, 148–9 interest costs 45 international comparative studies 143 interview techniques, for feedback studies 28 investment buildings 44 John Cabot City Technology College 96, 97 Jubilee Campus, University of Nottingham 60, 61 Kant’s Critiques 180 key performance indicators 139, 176, 186, 195, 196 knowledge management 28 Latham Report 16, 160, 169 on client expectations 160 Le Corbusier 185 lean thinking 176, 195 learning from experience 21–32, 142; see also post-occupancy evaluation ‘Learning from Experience’ project 28 life cycle costing 60, 129 lighting systems in offices 73–4, 148–9; in schools 88, 89, 93, 94 listening skills 142 Lloyds Register of Shipping Headquarters, City of London 59–60, Pl. 8–9 long-term costs 42–9 and housing associations 35, 36 ‘loose-fit’ approach to construction 15, 45–6, 47 M4I (Movement for Innovation) 2–3, 176 Key Performance Indicators 139, 176, 186 maintenance costs ratio to capital cost 15, 43; savings due to new design 82 managing design and construction 157–69
Index
Manchester, Barbirolli Square 124 market valuation method, limitations 69, 70 Marlborough, Duke of 158, 159 MARU (Medical Architecture Research Unit) design quality evaluation framework 114, 188 Maslow’s hierarchy of needs 139, 143 maternity units 109 measurement 177 and subjective judgement 175–6, 177 mental health units, effect of ward design 102, 105 Meyer, Hannes 175 mixed-use development 129 MOD Abbey Wood development 52, 73–80, Pl. 12 heating and ventilation system 52, 74–80; lighting system 52, 73–4; travel-to-work emissions 80 MOD Aldershot Sports Complex 163–9 benchmarking 165–6; clustering 166; planning and programming process 167–8; supply chain 165; value engineering 167; value management 166–7 modularisation 46 multicriteria analysis 7, 66 Murray Grove 40 National Ice Centre, Nottingham 202 New Engineering Contract 169 Newsom, John 88 Nightingale, Florence, quoted 102, 108 Nottingham Boots Beeston Warehouse 162–3; Boots D90E Extension 58–9, 68; Capital One European HQ 58, 68, Pl. 6–7; Castle Wharf 122; National Ice Centre 202, 203–4; Standard Court 122 Nuffield studies on hospital design 108–9 numerical capture of value 182–3 nursing homes 109 observational surveys (for feedback studies) 28 office buildings atria, effect on rent levels 55; case studies 56–63, 73–84; flexibility 47–8; heating and ventilation systems 74–80, 149; lighting systems 73–4, 148–9; valuation methods for 55–71 open statement of values 139 operational period, cost aspects 46–8 Opportunities for Change: Sustainable Construction (DETR publication) 3 organisational learning 28 organisational performance matrix 9, 10 Our Towns and Cities: the future (White Paper) 3 ownership, factors affecting 44 Parker Morris standards 206 partnering example 168–9; limitations 38 patient-focused design (of healthcare buildings) 112–13
Peabody Trust buildings 35, 36, 37, 40, 202, Pl. 1–2; as enlightened client 14, 34–7, 39; history 33–4; purpose 33–4, 204; staff 34 Pearson Education Headquarters, Harlow, Essex 60–1, 62 performance measurement Egan report on 176, 195; tools 197; see also design quality indicators; key performance indicators Perthcelyn Primary School, South Wales 93, 94 PFI (Private Finance Initiative) 31n[1], 97, 122n[3] and design quality 98–9; feedback in 21, 135; schools 53, 86–7, 97–9; whole-life cost approach 42 physical monitoring and testing, for feedback 29 Pioneer Health Centre, Peckham 110 Planetree model of patient-centred healthcare 112 Plato’s ideals 180, 199 poetics 182–4 Poole General Hospital 100 effect of ward design 102, 105 post-occupancy evaluation 7, 27, 31, 96, 142, 145, 196 American experience 25–6; barriers to 24, 25–6; benefits 24, 25, 136; costs 25; and feedback 30; measures to improve uptake 24; organisational input 26; performance metrics for 26; recommendations to CRISP 25; requirements for successful programme 26–7; as universal assessment mechanism 143; see also Probe post-project review workshops 28 Prescott, (Rt Hon) John, quoted 1–2 primary healthcare buildings 110–11 principles of good design 3–5 Probe studies 7, 27, 31, 96, 145, 156n[1], 196 website listing 145, 156n[1] process quality 138 measurement of 138, 179 product quality 138 measurement of 179 production-line construction techniques 39 in schools 89–90 productivity of occupants factors affecting 45, 47, 69, 81; measurement of 44–5, 69 professional knowledge base, collective character of 143 project delivery, and feedback 31 project knowledge, availability to client 136 public sector, and better urban design 126, 128 quality descriptors for 178; perception of 185–6; see also design quality quality measurement indicators 196–7 Quality in Town and Country initiative 5 Queens Inclosure First School, Hampshire 91–2 questionnaires in DQI tool 192–3, 199–201; for feedback studies 28, 101; in HQI system 208 219
111 2 3 4 5 6 7 8 9 10 1 2 3 4 5 6 7 8 9 20 1 2
322 4 5 6 7 8 9 30 1 2 3 4 5 6 7 8 9 40 1 2 3 4 5
611
Designing Better Buildings
RARE Headquarters, Twycross, Leics. 56–7, Pl. 3–5 real-world research 30 redundancy 150 refit costs, compared with demolition/rebuild 48 registered social landlords in HQI pilot trials 209; staff 34 replacement-cost valuation method 70 respect for other people’s needs and skills 143–4 Rethinking Construction report see Egan report revenge effects, in flexible systems 148–9 RIBA (Royal Institute of British Architects) awards 197; and feedback (Stage M) 22–3; Future Studies Group reviews 5, 6 RICS, on design value 70 risk sharing 15, 39 roads schemes, value assessment system for design options 17 Rogers (Urban Task Force) report 1, 38 role of buildings 43–5 Royal Fine Art Commission design advice 4, 56; replaced by CABE 3 Salford, Exchange Quay 124 sanctuaries 110 school design CABE report 87, 98; campus plan 95; history 88–90; linked pavilions 95; primary schools 90–5; principles for good design 98; secondary schools 95–7; street plan 95, 96 schools 52–3, 86–99 in Hampshire 90–2; number in Britain 86; and PFI 53, 86–7, 97–9; value of well-designed 87–8 Schools for the Future (DfES publication) 87, 95 scorecard method, applications 56, 68 sectoral research 139 self-managing flexibility 146–50 Selfridges Department Store, Birmingham 61–2 ‘sick building’ syndrome, and air quality 81 social diversity, and urban design 129 social housing HQI scores 211; Peabody Trust developments 35, 36, 37, 40, 202, Pl. 1, 2 social value of good design 8–9, 17, 35–6 South Downs Hospital, Brighton 100–1 effect of new ward design 102, 105 specialised buildings, obsolescence 153 standardisation 46, 150 Stansfield Smith, Colin 90 Strategic Forum for Construction 8 strategic urban design 129 supply chain, and designers 161–2 surveyors, and valuation systems 70 sustainability government publications on 3; healthcare buildings 114; measurement of 196; in project quality 179 system building, schools 89–90 TB (tuberculosis) sanatoria 108 technology effect on building configuration 42, 47, 48, 113; in hospital design 113 220
technology-management interactions, and flexibility of building(s) 146–7 temperature control systems 77–9 The Value of Urban Design (CABE report) 6, 116 therapeutic environments 113–14 time, in design process 142–3 trans-sectoral communication 139 travel-to-work emissions, ways of saving 80, 84 Treasury Task Force, on contribution of design 2, 140 urban design case studies on 117–18, 122–4; and healthcare buildings 114–15; value statement on 117 Urban Design Appraisal Tool 118 urban design, better adding value through 116–30; barriers to 126, 127; economic value added through 119, 120; education needed on value 126; environmental value added through 119, 121, 125; factors affecting delivery 128–9; how to release greater value 126, 128; need for more research 129–30; social value added through 119, 121, 125; stakeholders benefiting from 125 urban regeneration, design-led 36, 38, 41 Urban Task Force principles of good design 4; Rogers report 1, 38 use value 63, 64 use value building(s) 5, 44 valuation methods alternatives to traditional methods 66; need to include intangibles 9–10, 17, 64; openness of companies to new methods 69; reasons for new methods 64–6; traditional 64, 68 value distribution tree 65 value engineering 167 value management 166–7, 196 value systems, difficulty of measuring 138–9 valuing design and accountancy viewpoint 63–4; client’s perspective 33–41; evidence base for 5–6; hospitals 103–5; meaning of term 137; realms map 137–9; schools 87–8; urban design 116–30 ventilation systems, in offices 74–80, 149 Vidar Kliniken, Sweden 110 Vitruvius design quality model 179, 183, 199; principles of good design 3 volumetric construction 39 walk-through surveys 28 well-designed building(s), CABE guidance 4 well-designed place(s), CABE guidance 4 Wells-Riley equation 79, 80 whole-life cost approach 42 wisdom 141
