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Full Description
Climate Resilient Buildings: Thermal Resilience through Adaptive Strategies explores the urgent need for a paradigm shift in architectural design to address the growing challenges posed by climate change and energy instability. The book emphasizes the importance of thermal resilience, which involves designing buildings that maintain safe indoor conditions during extreme heat, cold, humidity, and power outages. It advocates for an integrated approach combining passive strategies, advanced materials, renewable energy systems, and digital tools such as modeling, optimization, and digital twins. Through detailed case studies and empirical research, the book demonstrates how buildings can function as adaptive thermal systems, interacting with their environment and energy networks to ensure year-round resilience. It serves as a useful resource for professionals, students, and policymakers involved in shaping the built environment under climatic and energy stress.
Highlights the critical role of interdisciplinary collaboration and education in equipping architects, engineers, and policymakers with the skills to design climate-safe buildings.
Contents
Preface
Introduction
About the Authors
Part I. Thermal Risks and Climatic Pressures in the Built Environment
Chapter 1. Global Warming and the Rising Risk of Heat Waves: Implications for Human Health and the Built Environment and Assessment Methods
Chapter 2. Thermal Comfort in Buildings: Standards, Certification Systems and Performance Indicators
Chapter 3. Thermal Resilience: Frameworks, Indicators and Assessment Methods
Chapter 4. Life-Cycle Assessment of Passive Strategies: Environmental, Energy and Economic Perspectives
Part III. Thermal Comfort and Thermal Resilience in Buildings under Changing Outdoor Conditions
Chapter 5. Overheating and Thermal Comfort in Buildings under Changing Outdoor Conditions
Chapter 6. Thermal Resilience in Buildings under Changing Outdoor Conditions
Part IV. Adaptive Passive Strategies
Chapter 7. Passive Strategies for Cold-Season Protection in Buildings
Chapter 8. Passive Cooling Strategies in Buildings
Part V. Energy Autonomy and Resilience in Decentralised Systems
Chapter 9. Low-Power Support and Micro-Autonomy
Chapter 10. From Micro-Autonomy to Thermal Performance of Buildings
Chapter 11. Energy Communities as Infrastructural and Organizational Frameworks for Climate-Resilient Buildings
Chapter 12. System-Level Case Studies: Integrating Buildings, Energy Communities and Multi-Energy Networks
Part VI. Digital Integration, Adaptive Modelling and the Architectural Design Process
Chapter 13. From Model to Decision
Chapter 14. Modelling, Calibration, and Knowledge Production in Adaptive Architecture
Chapter 15. Digital Twins for Buildings: Data Architecture and Adaptive Control Models
Chapter 16. Outcome-Based Architecture: From Operational Responsibility to Ethical Digital Practice
Part VII. Modelling and Optimisation (Case Studies)
Chapter 17. Multi-objective Modelling and Optimization of Building Thermal Resilience within Integrated Architectural Design
Chapter 18. Case Studies: Multi-Objective Optimization of Building Thermal and Energy Performance
Chapter 19. Case Studies of Thermal Resilience Modelling in Buildings and Urban Environments
Chapter 20. Conclusion: What This Book Has Achieved
