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This book summarizes the research being pursued as part of the Erasmus+ CBHE KA2 project entitled "Development of master curricula for natural disasters risk management in Western Balkan countries” (NatRisk), which aims to educate experts on the prevention and management of natural disasters in the Western Balkan region in line with national and EU policies. The project has successfully developed and implemented master curricula and educational training in the field of natural disasters risk management, and a methodology for the identification and prevention of natural disasters. Consisting of 11 chapters, the book analyzes and discusses topics such as risk assessment tools and quality methods, the different approaches for civil-military collaboration, natural disasters risk management in Bosnia and Herzegovina, leadership models for managing crises resulting from natural disasters, natural disasters in industrial areas, natural risk management in geotechnics, flood risk modeling, adaptive neuro-fuzzy inference models for flood prediction, collapse prediction of masonry arches, an algorithm for fire truck dispatch in emergency situations, and processing drought data in a GIS environment.
CDRM 5 explains the the practical aspects of using quantitative risk assessment (QRA) to develop optimal engineering designs that mitigate the effects of natural hazards, especially on civil infrastructure.
Initial priorities for U.S. participation in the International Decade for Natural Disaster Reduction, declared by the United Nations, are contained in this volume. It focuses on seven issues: hazard and risk assessment; awareness and education; mitigation; preparedness for emergency response; recovery and reconstruction; prediction and warning; learning from disasters; and U.S. participation internationally. The committee presents its philosophy of calls for broad public and private participation to reduce the toll of disasters.
Comprising a selection of articles dedicated to disaster management this volume focuses on the challenges arising from extreme natural phenomena and descriptions of methods for assessing their occurrence probability and of measures for mitigating their intensity and detrimental effects. The first group of articles describes general strategies for risk assessment and mitigation, providing examples in the context of various kinds of natural disasters. The economic impact of mitigation measures, communities’ differing coping capabilities, human attitudes towards relocation and possible links to climate change are among the topics considered. Natural strategies are outlined in the contexts of Turkey, Brazil and United Arab Emirates. The second part of the book is concerned with disasters from specific natural causes starting with a group of ten articles on floods. The corresponding contributions address flood frequency, vulnerability and resilience of communities, response of small and medium enterprises, risk in terms of financial losses, private investment participation to mitigation measures, assessment of design solutions against flood hazard, sleeper dykes as a means of reducing risk, preparedness of hospitals, causes of highway flooding and their relative importance, and impact of floods on poor communities. The third set of articles are related to earthquake-related hazards describing, in particular, an analysis tool providing integrated risk, coping capacity and management output, a method for assessing vulnerability considering key contributing factors, a technique for urban aftershock management and damage assessment, and neural network modelling to estimate tsunami damage. Finally, a group of three articles address issues related to landslides, namely, slope management as a means of reducing risk and losses, early warning based on rainfall data, and hazard prediction using favourability function modelling and spatial target mapping software. Providing a unique global perspective this volume focuses on recent developments over a wide range of topics that cannot be found in similar, currently available, publications in this field. This is a valuable addition to the relevant literature available to researchers and engineers working on risk assessment and mitigation of natural disaster intensity and consequences. It will appeal of those working in academic and research environments as well as governmental, professional, national and international organisations.
The book is a comprehensive volume on multi-hazards and their management for a sustainable built environment. It focuses on the role of civil engineering in building disaster resilient society. This book brings together all diverse disciplines of civil engineering and related areas (for example, geotechnical engineering, water resources engineering, structural engineering, transportation engineering, environmental engineering, construction management, GIS, and remote sensing) towards a common goal of disaster resilience through an interdisciplinary approach. It contains methods and case studies focusing on civil engineering solutions to reduce the disaster risk. The book contents are aligned in line with the priorities set by UN-Sendai Framework for Disaster Risk Reduction and UN-SDGs to promote a global culture of risk-awareness and disaster reduction. The book will be a useful comprehensive reference for disaster risk reduction beneficial for engineering students, teaching faculty, researchers, industry professionals and policymakers.
"Chapter contributors to this publication discuss about the importance of the prevention and management practices of soil erosion and torrential floods, with respect to the exchange of knowledge and best practices with the aim to add value in sharing knowledge among different stakeholders to provide answers to the ongoing concerns in the changed climate conditions about the soil erosion and torrential floods prevention"--
Disasters by Design provides an alternative and sustainable way to view, study, and manage hazards in the United States that would result in disaster-resilient communities, higher environmental quality, inter- and intragenerational equity, economic sustainability, and improved quality of life. This volume provides an overview of what is known about natural hazards, disasters, recovery, and mitigation, how research findings have been translated into policies and programs; and a sustainable hazard mitigation research agenda. Also provided is an examination of past disaster losses and hazards management over the past 20 years, including factorsâ€"demographic, climate, socialâ€"that influence loss. This volume summarizes and sets the stage for the more detailed books in the series.
Natech Risk Assessment and Management: Reducing the Risk of Natural-Hazard Impact on Hazardous Installations covers the entire spectrum of issues pertinent to Natech risk assessment and management. After a thorough introduction of the topic that includes definitions of terms, authors Krausmann, Cruz, and Salzano discuss various examples of international frameworks and provide a detailed view of the implementation of Natech Risk Management in the EU and OECD. There is a dedicated chapter on natural-hazard prediction and measurement from an engineering perspective, as well as a consideration of the impact of climate change on Natech risk. The authors also discuss selected Natech accidents, including recent examples, and provide specific 'lessons learned' from each, as well as an analysis of all essential elements of Natech risk assessment, such as plant layout, substance hazards, and equipment vulnerability. The final section of the book is dedicated to the reduction of Natech risk, including structural and organizational prevention and mitigation measures, as well as early warning issues and emergency foreword planning. - Teaches chemical engineers and safety managers how to safeguard chemical processing plants and pipelines against natural disasters - Includes international regulations and explains how to conduct a natural hazards risk assessment, both of which are supported by examples and case studies - Discusses a broad range of hazards and the multidisciplinary aspects of risk assessment in a detailed and accessible style
This is the first English language book to systematically introduce basic theories, methods and applications of disaster risk science from the angle of different subjects including disaster science, emergency technology and risk management. Viewed from basic theories, disaster risk science consists of disaster system, formation mechanism and process, covering 3 chapters in this book. From the perspective of technical methods, disaster risk science includes measurement and assessment of disasters, mapping and zoning of disaster risk, covering 4 chapters in this book. From the angle of application practices, disaster risk science contains disaster management, emergency response and integrated disaster risk paradigm, covering 3 chapters in the book. The book can be a good reference for researchers, students, and practitioners in the field of disaster risk science and natural disaster risk management for more actively participating in and supporting the development of "disaster risk science".