Description

Book Synopsis

Build and manage the sustainable cities of the future with this comprehensive guide

Climate change is among the biggest challenges facing today''s cities, which are in turn a major factor in driving or mitigating climate change. It is no surprise then that urban planning authorities are under mounting pressure to create cityscapes suited to the 21st century.

Sustainable Cities in a Changing Climate offers a systematic overview of the environmental and sustainability challenges facing urban planners and policymakers, and how to meet those challenges. Beginning with an analysis of how climate change impacts built environments, it proceeds to offer quantitative analysis and practical solutions for strengthening urban resilience.

Sustainable Cities in a Changing Climate readers will also find:

  • A future-oriented approach that accounts for both known and unknown threats
  • Detailed discussion of threats including environmental changes, global p

    Table of Contents

    List of Contributors xiii

    About the Editor xv

    Preface xvii

    Abbreviations xix

    Part I Climate Change and The Built Environment: Foundations and Implications 1

    1 Understanding Climate Change Fundamentals: Exploring the Forces Shaping Our Planet’s Future 3

    Introduction 3

    Recent Climate Change is Anthropogenic 5

    Spatial Distribution of Global Warming 6

    Modes of Climate Variability 6

    Find, Read, and Process Climatic Data 8

    Climate Models (GCMs and RCMs) 8

    Pathways and Scenarios 10

    Observations and Reanalysis 10

    Visualizing and Processing Climatic Data 12

    Conclusion 15

    References 15

    2 Advancing Urban Resilience and Sustainability Through the WRF-Urban Model: Bridging Numerical Modeling and Real-World Applications 17

    Introduction 17

    Nexus Between Urbanization and Climate Change 18

    Urban Modeling Through WRF-Urban Model 19

    Overview of the WRF-Urban Model 20

    Applications of the WRF-Urban Model 20

    Relevant Case Studies 21

    Case Study 1: Urban Climate Modeling in Singapore Using WRF-Urban 21

    Case Study 2: Summertime Air Conditioning Electric Loads Modeling in Beijing, China, Using WRF-Urban 21

    Case Study 3: Coastal-Urban Meteorology Study in the Metropolitan Region of Vitória, Brazil, Using the WRF-Urban Model 22

    Limitations of the WRF-Urban Model 22

    Ways Forward for Improvement 23

    Conclusions 24

    References 25

    3 Assessing and Projecting Climatic Changes in the Middle East and North Africa (MENA) Region: Insights from Regional Climate Model (RCM) Simulations and Future Projections 29

    Introduction 29

    Methodology 31

    GCMs vs. RCMs in Simulating MENA Temperature and Precipitation 32

    RCMs Performance in Simulating MENA Climatic Changes 34

    Projected Future Changes Over MENA-CORDEX 35

    Conclusion 36

    References 38

    4 Building for Climate Change: Examining the Environmental Impacts of the Built Environment 39

    Introduction 39

    Embodied Carbon Emission in Building Environment 40

    Embodied Carbon Emission for Selected Building Materials 40

    Embodied Carbon Emission of Limestone Quarrying 41

    Embodied Carbon Emission from Cement and Concrete Manufacturing 42

    Embodied Carbon from Asphalt Production and Construction 44

    Embodied Carbon Emission of Steel Production 45

    Embodied Carbon Mitigation Strategies 46

    MS1: Using Materials with a Lower Embodied Carbon 46

    Precast Hollow-Core Slabs 48

    Steel Framework System 48

    Use of Unfired Brick 48

    Ethylene Tetrafluoroethylene 49

    MS2: Reducing, Reusing, and Recovering— Heavy Building Materials 49

    MS3: Improvement in Design Phase and Efficient Construction 49

    MS4: Carbon Sequestration 51

    MS5: Extending the Building’s Life 51

    Operation Carbon Emissions in Building Environment 51

    Operation Carbon Mitigation Strategies 52

    Efficient HVAC Systems in Buildings 53

    Renewable Resources Integration 53

    Strategy for Water Use 54

    Use of Lighting 54

    Conclusion 55

    References 56

    5 Unveiling the Nexus: Human Developments and Their Influence on Climate Change 61

    Introduction 61

    Life Cycle Assessment for Environmental Impact 63

    ReCiPe Impact Category: Climate Change 64

    Energy Sector Impact on Climate Change 65

    Case Study 1: Electricity Generation in Turkey 65

    Case Study 2: Coal Power Plant with Carbon Capture Technology in Czech Republic 67

    Case Study 3: Solar Power with Energy Storage 68

    Emissions Savings from Energy Sector 69

    Energy Efficiency Increase 70

    Wind and Solar Plant Installation 71

    Keep Running the Nuclear Plants 72

    Freshwater Sector Impact on Climate Change 72

    Case Study 1: Water Supply in Singapore 72

    Case Study 2: Seawater Desalination in South Africa 73

    Case Study 3: Multistage Flash Desalination in Qatar 73

    Emission Savings from Water Sector 74

    Groundwater Management 74

    Energy Management in Water System 75

    Smart Wastewater Treatment Technology 75

    Concluding Remarks 75

    References 76

    Part II Quantifying Resilience and Its Qualities 79

    6 Assessing Resilience in Urban Critical Infrastructures: Interdependencies and Considerations 81

    Introduction 81

    Individual Network Resilience 83

    Transportation Network Resilience 84

    Electrical Network Resilience 84

    Water Network Resilience 85

    Case Study About Individual System Resilience: Transportation Resilience During Mega Sport Events 86

    Infrastructures Interdependencies and Resilience 88

    Case Study About Interdependent Systems Resilience 90

    Conclusion 92

    References 93

    7 Assessing Infrastructure Resilience: Approaches and Considerations 97

    Introduction 97

    Complex Networks 98

    Types of Graphs 98

    Directed and Undirected Graphs 99

    Weighted and Unweighted Graphs 99

    Main Applications in Resilience Assessment 100

    Betweenness Centrality 100

    Graph Percolation 101

    Strengths and Limitations of Complex Networks 101

    Simulation Approaches 101

    System Simulation 102

    Agent-Based Modeling 103

    GIS-Based Approaches 103

    Strengths and Limitations of Simulation Approaches 103

    Other Approaches 104

    Statistical Approaches 104

    Optimization Approaches 104

    Conclusion 105

    References 105

    8 Enhancing Buildings Resilience: A Comprehensive Perspective on Earthquake Resilient Design 111

    Introduction 111

    Structural Resilience Representation 112

    Performance-Based Design (PBD) 114

    Supporting Systems 115

    Supporting Systems Within the Building 116

    Beyond the Building Limits 116

    Conclusion 117

    References 118

    9 Enhancing Built Environment Resilience: Exploring Themes and Dimensions 121

    Introduction 121

    Uncertainty 122

    Risk Identification and Assessment 123

    Resilience Capacities 123

    Resilience Components 124

    Types of Resilience 124

    Ecological and Engineering Resilience 125

    Community and Social Resilience 127

    Specified and General Resilience 128

    Critical Infrastructure Resilience 128

    Technical Systems, Products, and Production Resilience 129

    Resilience Dimensions and Capitals 129

    Resilience Measuring 130

    Conclusion 133

    References 134

    10 Unveiling Urban Resilience: Exploring the Qualities and Interconnections of Urban Systems 139

    Introduction 139

    Urban Resilience to Climate Change 140

    Climate Change Impacts on Built Environment Systems 140

    Temperature Rise 144

    Sea Level Rise (SLR) 144

    Interacting Stresses 144

    Major Uncertainties and Interrelations 146

    Resilience Qualities 146

    Reflectivity 146

    Robustness 147

    Redundancy 147

    Flexibility 147

    Resourcefulness 148

    Rapidity of Recovery 148

    Inclusivity 148

    Integration 148

    Interrelation of Resilience Qualities 149

    Conclusion 149

    References 150

    11 Quantifying Urban Resilience: Methods and Approaches for Comprehensive Assessment 155

    Introduction 155

    Urban Resilience 156

    Resilience Strategies 156

    Urban and Community Resilience Assessment 157

    Resilience Assessment Approaches 159

    Qualitative Resilience Assessment 160

    Conceptual Frameworks 161

    Semiquantitative Indices 163

    Quantitative Resilience Assessment 163

    General Resilience Approaches (Measures) 164

    Deterministic Performance-based Approach 165

    Probabilistic Performance-based Approach 165

    Structural-based Models 165

    Optimization Models 165

    Simulation Models 165

    Fuzzy Logic Models 166

    Frameworks and Tools for Measuring Resilience 166

    Conclusion 177

    References 177

    Part III Resilient Urban Systems: Navigating Climate Change and Enhancing Sustainability 183

    12 Building Climate Resilience Through Urban Planning: Strategies, Challenges, and Opportunities 185

    Introduction 185

    Understanding Climate Change Impacts on Urban Areas 186

    Urban Planning Strategies for Mitigating Climate Change Impacts 188

    Transit-Oriented Development (TOD) 188

    Fifteen Minutes City (FMC) 190

    Compact Cities 190

    Sustainable Land Use and Development Policies 191

    Low-Impact Development (LID) 191

    Sponge Cities 192

    Green Infrastructure and Urban Greening Initiatives for Cool Cities 193

    Waste Management and Recycling Systems, Public Participation, and Education 194

    Risk Assessment and Adaptation in Urban Planning 195

    Case Studies of Successful Climate-Responsive Urban Planning 200

    Challenges and Opportunities 202

    Major Key Points 203

    Conclusion 204

    References 204

    13 Integrating Green–Blue–Gray Infrastructure for Sustainable Urban Flood Risk Management: Enhancing Resilience and Advantages 207

    Introduction 207

    Green Infrastructure (GI) 208

    Gray Infrastructure (GRAI) 209

    Green–Blue–Gray Infrastructure Combination 209

    Benefits of Combining Green–Blue–Gray Infrastructure (GBGI) Systems 209

    Green–Blue–Gray Infrastructure (GBGI) for Flood Risk Management 210

    Environmental Impacts of Floods and Green Climate Change Adaptation 210

    Regional Progress in GBGI Nexus Research 211

    Flood Risk Management Resilience 212

    Conclusion 221

    References 221

    14 Enhancing Energy System Resilience: Navigating Climate Change and Security Challenges 227

    Introduction 227

    Adapting the Theory of Resilience to Energy Systems 229

    Why Incorporate Resilience into Energy Systems? 234

    What are the Threats to the Energy System? 235

    Domains of Resilience Approaches to Energy Systems 237

    Resilience Enhancement Approaches for Energy Systems 240

    System Hardening 240

    Distributed Generation 240

    Energy Storage 241

    Smart Grid Technology 241

    Enhancing Energy Efficiency 242

    Make Climate Resilience a Central Part of Energy System Planning 242

    Conclusion 243

    References 245

    15 Building Resilient Health Policies: Incorporating Climate Change Impacts for Sustainable Adaptation 251

    Introduction 251

    Climate Change Impacts on Public Health 253

    Infectious Diseases 254

    Air Pollution 255

    Extreme Events 256

    Considerations in Health Policy Development 256

    Reducing Carbon Emissions 256

    Medical Interventions 257

    Healthy Lifestyle 257

    Monitoring 257

    Proactive Approaches 258

    Strengthening Institutions 258

    Conclusion 259

    References 259

    16 Enhancing Resilience: Surveillance Strategies for Monitoring the Spread of Vector-Borne Diseases 263

    Introduction 263

    Vector-Borne Diseases 265

    Environmental Factors and Vector-Borne Diseases 265

    Climate Change Impacts on Vector-Borne Diseases 266

    Surveillance Strategies 266

    Monitoring of Human Cases 268

    Identification of Pathogen Species 269

    Distribution and Behavior of Vectors 269

    Climatic and Environmental Changes 270

    Control Measures 270

    Policy Development 270

    Conclusion 271

    References 271

    Glossary 277

    Index 281

Sustainable Cities in a Changing Climate

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      Publisher: John Wiley & Sons Inc
      Publication Date: Publication Date: 12/01/2024
      ISBN13: 9781394201549, 978-1394201549
      ISBN10: 1394201540
      Also in:
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      Description

      Book Synopsis

      Build and manage the sustainable cities of the future with this comprehensive guide

      Climate change is among the biggest challenges facing today''s cities, which are in turn a major factor in driving or mitigating climate change. It is no surprise then that urban planning authorities are under mounting pressure to create cityscapes suited to the 21st century.

      Sustainable Cities in a Changing Climate offers a systematic overview of the environmental and sustainability challenges facing urban planners and policymakers, and how to meet those challenges. Beginning with an analysis of how climate change impacts built environments, it proceeds to offer quantitative analysis and practical solutions for strengthening urban resilience.

      Sustainable Cities in a Changing Climate readers will also find:

      • A future-oriented approach that accounts for both known and unknown threats
      • Detailed discussion of threats including environmental changes, global p

        Table of Contents

        List of Contributors xiii

        About the Editor xv

        Preface xvii

        Abbreviations xix

        Part I Climate Change and The Built Environment: Foundations and Implications 1

        1 Understanding Climate Change Fundamentals: Exploring the Forces Shaping Our Planet’s Future 3

        Introduction 3

        Recent Climate Change is Anthropogenic 5

        Spatial Distribution of Global Warming 6

        Modes of Climate Variability 6

        Find, Read, and Process Climatic Data 8

        Climate Models (GCMs and RCMs) 8

        Pathways and Scenarios 10

        Observations and Reanalysis 10

        Visualizing and Processing Climatic Data 12

        Conclusion 15

        References 15

        2 Advancing Urban Resilience and Sustainability Through the WRF-Urban Model: Bridging Numerical Modeling and Real-World Applications 17

        Introduction 17

        Nexus Between Urbanization and Climate Change 18

        Urban Modeling Through WRF-Urban Model 19

        Overview of the WRF-Urban Model 20

        Applications of the WRF-Urban Model 20

        Relevant Case Studies 21

        Case Study 1: Urban Climate Modeling in Singapore Using WRF-Urban 21

        Case Study 2: Summertime Air Conditioning Electric Loads Modeling in Beijing, China, Using WRF-Urban 21

        Case Study 3: Coastal-Urban Meteorology Study in the Metropolitan Region of Vitória, Brazil, Using the WRF-Urban Model 22

        Limitations of the WRF-Urban Model 22

        Ways Forward for Improvement 23

        Conclusions 24

        References 25

        3 Assessing and Projecting Climatic Changes in the Middle East and North Africa (MENA) Region: Insights from Regional Climate Model (RCM) Simulations and Future Projections 29

        Introduction 29

        Methodology 31

        GCMs vs. RCMs in Simulating MENA Temperature and Precipitation 32

        RCMs Performance in Simulating MENA Climatic Changes 34

        Projected Future Changes Over MENA-CORDEX 35

        Conclusion 36

        References 38

        4 Building for Climate Change: Examining the Environmental Impacts of the Built Environment 39

        Introduction 39

        Embodied Carbon Emission in Building Environment 40

        Embodied Carbon Emission for Selected Building Materials 40

        Embodied Carbon Emission of Limestone Quarrying 41

        Embodied Carbon Emission from Cement and Concrete Manufacturing 42

        Embodied Carbon from Asphalt Production and Construction 44

        Embodied Carbon Emission of Steel Production 45

        Embodied Carbon Mitigation Strategies 46

        MS1: Using Materials with a Lower Embodied Carbon 46

        Precast Hollow-Core Slabs 48

        Steel Framework System 48

        Use of Unfired Brick 48

        Ethylene Tetrafluoroethylene 49

        MS2: Reducing, Reusing, and Recovering— Heavy Building Materials 49

        MS3: Improvement in Design Phase and Efficient Construction 49

        MS4: Carbon Sequestration 51

        MS5: Extending the Building’s Life 51

        Operation Carbon Emissions in Building Environment 51

        Operation Carbon Mitigation Strategies 52

        Efficient HVAC Systems in Buildings 53

        Renewable Resources Integration 53

        Strategy for Water Use 54

        Use of Lighting 54

        Conclusion 55

        References 56

        5 Unveiling the Nexus: Human Developments and Their Influence on Climate Change 61

        Introduction 61

        Life Cycle Assessment for Environmental Impact 63

        ReCiPe Impact Category: Climate Change 64

        Energy Sector Impact on Climate Change 65

        Case Study 1: Electricity Generation in Turkey 65

        Case Study 2: Coal Power Plant with Carbon Capture Technology in Czech Republic 67

        Case Study 3: Solar Power with Energy Storage 68

        Emissions Savings from Energy Sector 69

        Energy Efficiency Increase 70

        Wind and Solar Plant Installation 71

        Keep Running the Nuclear Plants 72

        Freshwater Sector Impact on Climate Change 72

        Case Study 1: Water Supply in Singapore 72

        Case Study 2: Seawater Desalination in South Africa 73

        Case Study 3: Multistage Flash Desalination in Qatar 73

        Emission Savings from Water Sector 74

        Groundwater Management 74

        Energy Management in Water System 75

        Smart Wastewater Treatment Technology 75

        Concluding Remarks 75

        References 76

        Part II Quantifying Resilience and Its Qualities 79

        6 Assessing Resilience in Urban Critical Infrastructures: Interdependencies and Considerations 81

        Introduction 81

        Individual Network Resilience 83

        Transportation Network Resilience 84

        Electrical Network Resilience 84

        Water Network Resilience 85

        Case Study About Individual System Resilience: Transportation Resilience During Mega Sport Events 86

        Infrastructures Interdependencies and Resilience 88

        Case Study About Interdependent Systems Resilience 90

        Conclusion 92

        References 93

        7 Assessing Infrastructure Resilience: Approaches and Considerations 97

        Introduction 97

        Complex Networks 98

        Types of Graphs 98

        Directed and Undirected Graphs 99

        Weighted and Unweighted Graphs 99

        Main Applications in Resilience Assessment 100

        Betweenness Centrality 100

        Graph Percolation 101

        Strengths and Limitations of Complex Networks 101

        Simulation Approaches 101

        System Simulation 102

        Agent-Based Modeling 103

        GIS-Based Approaches 103

        Strengths and Limitations of Simulation Approaches 103

        Other Approaches 104

        Statistical Approaches 104

        Optimization Approaches 104

        Conclusion 105

        References 105

        8 Enhancing Buildings Resilience: A Comprehensive Perspective on Earthquake Resilient Design 111

        Introduction 111

        Structural Resilience Representation 112

        Performance-Based Design (PBD) 114

        Supporting Systems 115

        Supporting Systems Within the Building 116

        Beyond the Building Limits 116

        Conclusion 117

        References 118

        9 Enhancing Built Environment Resilience: Exploring Themes and Dimensions 121

        Introduction 121

        Uncertainty 122

        Risk Identification and Assessment 123

        Resilience Capacities 123

        Resilience Components 124

        Types of Resilience 124

        Ecological and Engineering Resilience 125

        Community and Social Resilience 127

        Specified and General Resilience 128

        Critical Infrastructure Resilience 128

        Technical Systems, Products, and Production Resilience 129

        Resilience Dimensions and Capitals 129

        Resilience Measuring 130

        Conclusion 133

        References 134

        10 Unveiling Urban Resilience: Exploring the Qualities and Interconnections of Urban Systems 139

        Introduction 139

        Urban Resilience to Climate Change 140

        Climate Change Impacts on Built Environment Systems 140

        Temperature Rise 144

        Sea Level Rise (SLR) 144

        Interacting Stresses 144

        Major Uncertainties and Interrelations 146

        Resilience Qualities 146

        Reflectivity 146

        Robustness 147

        Redundancy 147

        Flexibility 147

        Resourcefulness 148

        Rapidity of Recovery 148

        Inclusivity 148

        Integration 148

        Interrelation of Resilience Qualities 149

        Conclusion 149

        References 150

        11 Quantifying Urban Resilience: Methods and Approaches for Comprehensive Assessment 155

        Introduction 155

        Urban Resilience 156

        Resilience Strategies 156

        Urban and Community Resilience Assessment 157

        Resilience Assessment Approaches 159

        Qualitative Resilience Assessment 160

        Conceptual Frameworks 161

        Semiquantitative Indices 163

        Quantitative Resilience Assessment 163

        General Resilience Approaches (Measures) 164

        Deterministic Performance-based Approach 165

        Probabilistic Performance-based Approach 165

        Structural-based Models 165

        Optimization Models 165

        Simulation Models 165

        Fuzzy Logic Models 166

        Frameworks and Tools for Measuring Resilience 166

        Conclusion 177

        References 177

        Part III Resilient Urban Systems: Navigating Climate Change and Enhancing Sustainability 183

        12 Building Climate Resilience Through Urban Planning: Strategies, Challenges, and Opportunities 185

        Introduction 185

        Understanding Climate Change Impacts on Urban Areas 186

        Urban Planning Strategies for Mitigating Climate Change Impacts 188

        Transit-Oriented Development (TOD) 188

        Fifteen Minutes City (FMC) 190

        Compact Cities 190

        Sustainable Land Use and Development Policies 191

        Low-Impact Development (LID) 191

        Sponge Cities 192

        Green Infrastructure and Urban Greening Initiatives for Cool Cities 193

        Waste Management and Recycling Systems, Public Participation, and Education 194

        Risk Assessment and Adaptation in Urban Planning 195

        Case Studies of Successful Climate-Responsive Urban Planning 200

        Challenges and Opportunities 202

        Major Key Points 203

        Conclusion 204

        References 204

        13 Integrating Green–Blue–Gray Infrastructure for Sustainable Urban Flood Risk Management: Enhancing Resilience and Advantages 207

        Introduction 207

        Green Infrastructure (GI) 208

        Gray Infrastructure (GRAI) 209

        Green–Blue–Gray Infrastructure Combination 209

        Benefits of Combining Green–Blue–Gray Infrastructure (GBGI) Systems 209

        Green–Blue–Gray Infrastructure (GBGI) for Flood Risk Management 210

        Environmental Impacts of Floods and Green Climate Change Adaptation 210

        Regional Progress in GBGI Nexus Research 211

        Flood Risk Management Resilience 212

        Conclusion 221

        References 221

        14 Enhancing Energy System Resilience: Navigating Climate Change and Security Challenges 227

        Introduction 227

        Adapting the Theory of Resilience to Energy Systems 229

        Why Incorporate Resilience into Energy Systems? 234

        What are the Threats to the Energy System? 235

        Domains of Resilience Approaches to Energy Systems 237

        Resilience Enhancement Approaches for Energy Systems 240

        System Hardening 240

        Distributed Generation 240

        Energy Storage 241

        Smart Grid Technology 241

        Enhancing Energy Efficiency 242

        Make Climate Resilience a Central Part of Energy System Planning 242

        Conclusion 243

        References 245

        15 Building Resilient Health Policies: Incorporating Climate Change Impacts for Sustainable Adaptation 251

        Introduction 251

        Climate Change Impacts on Public Health 253

        Infectious Diseases 254

        Air Pollution 255

        Extreme Events 256

        Considerations in Health Policy Development 256

        Reducing Carbon Emissions 256

        Medical Interventions 257

        Healthy Lifestyle 257

        Monitoring 257

        Proactive Approaches 258

        Strengthening Institutions 258

        Conclusion 259

        References 259

        16 Enhancing Resilience: Surveillance Strategies for Monitoring the Spread of Vector-Borne Diseases 263

        Introduction 263

        Vector-Borne Diseases 265

        Environmental Factors and Vector-Borne Diseases 265

        Climate Change Impacts on Vector-Borne Diseases 266

        Surveillance Strategies 266

        Monitoring of Human Cases 268

        Identification of Pathogen Species 269

        Distribution and Behavior of Vectors 269

        Climatic and Environmental Changes 270

        Control Measures 270

        Policy Development 270

        Conclusion 271

        References 271

        Glossary 277

        Index 281

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