Building Sustainability in East Asia

Policy, Design and People

Vincent S. Cheng, Jimmy C. Tong

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English

Wiley-Blackwell
25 April 2017

Environmentally-friendly architecture & design; Building construction & materials

Building Sustainability in East Asia: Policy, Design and People illustrates the holistic approaches and individual strategies to building sustainability that have been implemented in construction projects in Asia. Top-down and bottom-up approaches (from formulating policy to constructing individual buildings) are effective in terms of the sustainable development of cities, and this book covers both, illustrated with a range of case study developments.

By: Vincent S. Cheng, Jimmy C. Tong
Imprint: Wiley-Blackwell
Country of Publication: United States
Dimensions: Height: 246mm, Width: 173mm, Spine: 20mm
Weight: 726g
ISBN: 9781119277002
ISBN 10: 1119277000
Pages: 272
Publication Date: 25 April 2017
Audience: Professional and scholarly , Undergraduate
Format: Hardback
Publisher's Status: Active

About the authors xi Foreword xii Preface xiv Acknowledgement xvii Section 1 On contexts 1 1 Introduction 3 1.1 Why sustainability matters 3 1.2 Why Asia matters 4 1.3 Why buildings matter 5 1.3.1 Root causes and solutions to the problem 6 1.3.2 Eco‐city principles 6 1.3.3 Liveable spaces 7 1.4 Dimensions of sustainable development 8 1.4.1 Policy support 8 1.4.2 Green market and consumption 9 1.4.3 Technology push 10 1.5 Sustainability in practice 10 1.5.1 History of green building in Asia 11 1.5.2 Capacity building – green professionals 11 1.5.3 Sustainable change for the green movement 15 1.6 Organisation of the book 15 2 Rapid urbanisation 16 2.1 Introduction 16 2.2 Asian urbanisation in context 16 2.3 Demographic changes 17 2.3.1 Global population trends 17 2.3.2 Urban population growth 18 2.3.3 The challenge of an ageing population 21 2.4 Economic changes 22 2.4.1 Growth in GDP 22 2.4.2 Increased income 22 2.4.3 Consuming society 24 2.5 Social changes 25 2.5.1 Housing needs 25 2.5.2 Employment needs 26 2.6 New growth model 26 2.6.1 Mega and compact cities 27 2.6.2 Green building markets 28 2.7 Summary 29 3 Urban environmental challenges 30 3.1 Introduction 30 3.2 Urban challenges in context 31 3.3 Climate change challenges 32 3.3.1 Vulnerability to extreme weather 32 3.3.2 Global warming 34 3.4 Urban environmental degradation 37 3.4.1 Air pollution 37 3.4.2 Energy depletion 39 3.4.3 Waste generation 42 3.4.4 Unhealthy urban environment 42 3.5 Liveability degradation 43 3.5.1 Urban heat Island 43 3.5.2 Ecological footprint 44 3.6 Summary 45 4 Quest for solutions 46 4.1 Introduction 46 4.2 History of international collaborations and partnerships 47 4.3 C40 cities climate leadership group initiative 47 4.3.1 Key issues 49 4.3.2 Action plan on buildings 49 4.4 WEF partnership for future of urban development 50 4.5 Regional integration 52 4.6 Changes for solutions 53 4.6.1 Re‐think of sustainable development framework 53 4.6.2 Issues of policy 54 4.6.3 Issues of practice/design 55 4.6.4 Issues of people 55 4.7 Paradigm shift 56 Section 2 On policy 57 5 Policy framework 59 5.1 Introduction 59 5.2 Policy framework 60 5.3 Policy priorities 61 5.3.1 The moving target 61 5.3.2 Prioritisation of policy issues 63 5.3.3 The Asian way of change 71 5.4 Policy instruments 71 5.4.1 Regulations and standards “The Stick” 73 5.4.2 Economic instruments “The Carrot and Stick” 74 5.4.3 Voluntary schemes instrument 74 5.5 Institutional arrangements 76 5.5.1 Hierarchy – who to lead 76 5.5.2 Government coordination and authority 78 5.5.3 Proposal for eco‐city implementation 79 5.6 Summary 80 6 Policy implementation 81 6.1 Introduction 81 6.2 General approach 81 6.3 Review of the regulations 83 6.3.1 Building energy regulations 84 6.3.2 Planning control for a better environment 86 6.4 Market solutions 87 6.4.1 Incentivising the market 87 6.5 Market‐based approach 90 6.5.1 Green building certification 90 6.5.2 Sustainability report and index 90 6.6 Public‐private partnership (PPP) 91 6.7 Collaboration with private sector 93 6.8 Capacity building 94 6.8.1 Demonstration projects and research and development 94 6.8.2 Education and training of green practitioners 95 6.9 Summary 96 Section 3 On design 97 7 Sustainability transformation 99 7.1 Introduction 99 7.2 Green transformation of building industry 100 7.2.1 Engaging stakeholders 100 7.2.2 Empowering the practitioners 102 7.3 Practice of building sustainability 103 7.3.1 Definition of sustainable building 103 7.3.2 Standardisation of practice 106 7.4 Sustainable building in action 107 7.4.1 Life‐cycle consideration 107 7.4.2 Design stage – integrated design 110 7.4.3 Construction stage – sustainable materials 113 7.4.4 Operation stage – behavioural changes 120 7.5 Building information modelling 121 7.6 Summary 123 8 Engineering solutions 124 8.1 Introduction 124 8.2 Design provisions for sustainable building 125 8.3 Adaptation to climate change and resilient designs 125 8.3.1 Extreme wind engineering 125 8.3.2 Flood mitigation and prevention 128 8.3.3 Seismic design 129 8.3.4 Fire engineering 130 8.4 High‐performance buildings 130 8.4.1 Building physics analysis 132 8.4.2 Energy appraisal 133 8.4.3 Indoor environment quality 133 8.4.4 Outdoor environment quality 135 8.5 Design innovations 135 8.5.1 Outside building: High‐performance envelope 137 8.5.2 Inside building: Low energy and carbon designs 143 8.6 Summary 146 9 De-carbonisation 147 9.1 Introduction 147 9.2 Building energy performance 148 9.3 Low/zero carbon design 152 9.3.1 Definition of zero carbon 152 9.3.2 Design strategy 152 9.4 Renewable energy for urban developments and buildings 158 9.4.1 Solar energy 160 9.4.2 Wind energy 162 9.4.3 Bioenergy 162 9.4.4 Hydropower 163 9.4.5 Marine/ocean energy 164 9.4.6 Geothermal energy 164 9.5 District‐wide de‐carbonisation 167 9.5.1 Micro‐energy grid 167 9.5.2 District energy 169 9.6 Towards a low‐carbon and smart city 172 9.7 Summary 173 Section 4 On people 175 10 Space for people 177 10.1 Introduction 177 10.2 Urban context of Asia city 178 10.2.1 Liveability 178 10.2.2 A compact and vertical city 178 10.2.3 An undesirable building environment 180 10.3 The quest for a quality built environment 181 10.3.1 A novel planning framework for the environment 181 10.3.2 The urban climatic map 182 10.3.3 Air ventilation 184 10.3.4 Microclimate and landscape design integration 184 10.4 Reducing the urban heat Island 187 10.5 Street canyon effect – roadside air pollution 191 10.6 Right of light 193 10.7 Health and well‐being 193 10.7.1 Natural ventilation 194 10.7.2 Daylight for habitation 194 10.7.3 Water quality 196 10.8 Summary 197 11 Community making 199 11.1 Introduction 199 11.2 Sustainable community 200 11.3 Community‐based design 201 11.3.1 Cultural aspect (social) 202 11.3.2 Placemaking (environment) 202 11.3.3 Sustainable housing (economics) 202 11.4 Neighbourhood assessment 206 11.4.1 History of overseas schemes 206 11.4.2 Definition of community/neighbourhood 207 11.4.3 Assessment aspects/categories 208 11.5 Development of BEAM plus neighbourhood in Hong Kong 210 11.5.1 Landscape and ecology in built environment 212 11.5.2 Stakeholder engagement 213 11.5.3 The establishment of BEAM plus neighbourhood 215 11.6 Summary 216 12 Low carbon living 217 12.1 Introduction 217 12.2 Carbon footprint of urban living 217 12.3 Behavioural changes 219 12.4 Changes in design culture 220 12.4.1 Task lighting 221 12.4.2 Thermal comfort 221 12.4.3 Natural ventilation 221 12.4.4 Green products 222 12.4.5 Smart metering 222 12.5 Eco‐education 222 12.6 Zero energy living experience 226 12.7 Community centre 228 12.8 Urban farming 230 12.9 Living LOHAS 231 12.10 Summary 234 Section 5 Way forward 235 13 Conclusions 237 On contexts … 237 On policy … 238 On design …. 238 On people …. 239 Way forward …. 239 References 240 Index 250

Vincent S. Cheng is Director of the Building Sustainability Group at Arup in Hong Kong. Dr Cheng has 20 years of professional experience in building energy efficiency and is an expert in sustainable master planning and building design, specialising in green code formulation, HK-BEAM and LEED assessment, life-cycle analysis and Air Ventilation Assessment (AVA) and District Cooling Systems (DCS). He is Council member of HK Professional Green Building Council and represents the Arup HK office on the Arup's Sustainability Task Force. Jimmy C. Tong is East Asia Energy Skill Leader and an Associate at Arup in Hong Kong, focusing on Building Sustainability. Dr Tong has expertise in energy systems in various sectors, including wind, solar, and other renewable energy, infrastructure and building services, and product and system development, and his current focus is creating and transforming cities and buildings toward a greener future.