Climate-Resilient Structures and Infrastructures
1st Edition
Published on 21. May 2026
Book
Hardback
380 pages
978-1-032-93601-7 (ISBN)
Description
The safety and serviceability of in-service structures and infrastructure systems are often threatened by natural hazards. Owners and decision-makers are especially concerned about the resilience of an asset (structure or infrastructure), namely its ability to be in readiness for, absorb, recover from, and adapt to disruptive events. Climate change is increasingly producing nonstationary natural hazards such as wind hazards, and concurrent multiple hazards may result in especially severe performance reduction.
This book focuses on hazard modeling and resilience methods and their application in engineering cases. It presents the state of the art of the theory, methodology, and applications related to infrastructure resilience and offers practical approaches to enhancing resilience for engineers, policymakers, and researchers.
This book focuses on hazard modeling and resilience methods and their application in engineering cases. It presents the state of the art of the theory, methodology, and applications related to infrastructure resilience and offers practical approaches to enhancing resilience for engineers, policymakers, and researchers.
More details
Language
English
Place of publication
London
United Kingdom
Publishing group
Taylor & Francis Ltd
Target group
College/higher education
Professional and scholarly
Academic and Postgraduate
Product notice
Laminated cover
Illustrations
43 s/w Abbildungen, 106 farbige Abbildungen, 18 Farbfotos bzw. farbige Rasterbilder, 43 s/w Zeichnungen, 88 farbige Zeichnungen, 59 s/w Tabellen
59 Tables, black and white; 88 Line drawings, color; 43 Line drawings, black and white; 18 Halftones, color; 106 Illustrations, color; 43 Illustrations, black and white
Dimensions
Height: 234 mm
Width: 156 mm
Thickness: 22 mm
Weight
728 gr
ISBN-13
978-1-032-93601-7 (9781032936017)
Copyright in bibliographic data and cover images is held by Nielsen Book Services Limited or by the publishers or by their respective licensors: all rights reserved.
Schweitzer Classification
Other editions
Additional editions
Cao Wang | Bilal M. Ayyub | Michael Beer
Climate-Resilient Structures and Infrastructures
E-Book
05/2026
1st Edition
CRC Press
€128.99
Available for download
Cao Wang | Bilal M. Ayyub | Michael Beer
Climate-Resilient Structures and Infrastructures
E-Book
05/2026
1st Edition
CRC Press
€128.99
Available for download
Persons
Cao Wang is Senior Lecturer and ARC DECRA Fellow at the University of Technology Sydney, Australia. He is a member of the Committee on Probability and Statistics in the Physical Sciences (C(PS)2) and the Bernoulli Society for Mathematical Statistics and Probability.
Bilal M. Ayyub is Professor and Director of the Center for Technology and Systems Management at the University of Maryland, USA. He is a distinguished member of ASCE, an honorary member of ASME, and a co-chair of the ASCE-NOAA Task Force on Climate Resilience in Engineering Practice, and he has chaired the ASCE Committee on Adaptation to a Changing Climate.
Michael Beer is Professor and Head of the Institute for Risk and Reliability, Leibniz Universitaet Hannover, Germany. He is also part-time Professor at the University of Liverpool and guest Professor at Tongji University and Tsinghua University, China. He is the Chairman of the European Safety and Reliability Association (ESRA) and serves on the Executive Board of the International Safety and Reliability Association (IASSAR), on the Executive Board of the European Association of Structural Dynamics (EASD), and on the Board of Directors of the International Association for Probabilistic Safety Assessment and Management (IAPSAM). He is a fellow of the Alexander von Humboldt-Foundation.
Bilal M. Ayyub is Professor and Director of the Center for Technology and Systems Management at the University of Maryland, USA. He is a distinguished member of ASCE, an honorary member of ASME, and a co-chair of the ASCE-NOAA Task Force on Climate Resilience in Engineering Practice, and he has chaired the ASCE Committee on Adaptation to a Changing Climate.
Michael Beer is Professor and Head of the Institute for Risk and Reliability, Leibniz Universitaet Hannover, Germany. He is also part-time Professor at the University of Liverpool and guest Professor at Tongji University and Tsinghua University, China. He is the Chairman of the European Safety and Reliability Association (ESRA) and serves on the Executive Board of the International Safety and Reliability Association (IASSAR), on the Executive Board of the European Association of Structural Dynamics (EASD), and on the Board of Directors of the International Association for Probabilistic Safety Assessment and Management (IAPSAM). He is a fellow of the Alexander von Humboldt-Foundation.
Content
Chapter 1 Introduction
Chapter 2 Sustainable Climate Resilience for Critical Energy Infrastructure in Developing Countries: Needs and Challenges
Chapter 3 Climate-resilient structures and infrastructures: hazards, methods, and applications
Chapter 4 Navigating new waters: ensuring cyber and climate resilience in industrial water systems
Chapter 5 Unpacking The 'BLACK Box' of Enabling Infrastructure Resilience to Climate Change: Time to Address the 'Soft' Elements of Organisations for Ensuring Better Decisions
Chapter 6 Adapting Infrastructure to a Changing Climate with Extreme Event Attribution Assessments
Chapter 7 Hazard and Risk Assessment in Nonstationary Environments for Engineering Applications
Chapter 8 Climate Impact Analytics for the US Freight Rail Network: Extreme Temperatures as a Case Study
Chapter 9 Disaster Recovery Modeling for Residential Buildings and Its Policy Implications
Chapter 10 Fragility Assessment of Building Portfolios under Natural Hazards Using Machine Learning and Poisson Binomial Distribution
Chapter 11 Predictive modelling of hail impact damage on toughened glazing panels
Chapter 12 Performance modelling of aluminium building cladding under hail hazards
Chapter 13 The Impact of Climate Change on Maritime Transport and Port Infrastructure Resilience
Chapter 14 Machine Learning-Driven Resilience Assessment: Integrating Dynamic Bayesian Networks and Machine Learning for Predicting Critical Infrastructure Resilience Against Disasters
Chapter 15 Optimizing Hurricane Evacuation Decisions Under Climate Change
Chapter 16 Adoption of Green Building Strategies: A Case of Enhancing Infrastructure and Superstructure Resilience in Zimbabwe
Chapter 2 Sustainable Climate Resilience for Critical Energy Infrastructure in Developing Countries: Needs and Challenges
Chapter 3 Climate-resilient structures and infrastructures: hazards, methods, and applications
Chapter 4 Navigating new waters: ensuring cyber and climate resilience in industrial water systems
Chapter 5 Unpacking The 'BLACK Box' of Enabling Infrastructure Resilience to Climate Change: Time to Address the 'Soft' Elements of Organisations for Ensuring Better Decisions
Chapter 6 Adapting Infrastructure to a Changing Climate with Extreme Event Attribution Assessments
Chapter 7 Hazard and Risk Assessment in Nonstationary Environments for Engineering Applications
Chapter 8 Climate Impact Analytics for the US Freight Rail Network: Extreme Temperatures as a Case Study
Chapter 9 Disaster Recovery Modeling for Residential Buildings and Its Policy Implications
Chapter 10 Fragility Assessment of Building Portfolios under Natural Hazards Using Machine Learning and Poisson Binomial Distribution
Chapter 11 Predictive modelling of hail impact damage on toughened glazing panels
Chapter 12 Performance modelling of aluminium building cladding under hail hazards
Chapter 13 The Impact of Climate Change on Maritime Transport and Port Infrastructure Resilience
Chapter 14 Machine Learning-Driven Resilience Assessment: Integrating Dynamic Bayesian Networks and Machine Learning for Predicting Critical Infrastructure Resilience Against Disasters
Chapter 15 Optimizing Hurricane Evacuation Decisions Under Climate Change
Chapter 16 Adoption of Green Building Strategies: A Case of Enhancing Infrastructure and Superstructure Resilience in Zimbabwe