Download Free International Guidelines On Natural And Nature Based Features For Flood Risk Management Book in PDF and EPUB Free Download. You can read online International Guidelines On Natural And Nature Based Features For Flood Risk Management and write the review.

The Executive Summary is a shorter companion to the complete International Guidelines on Natural and Nature-Based Features for Flood Risk Management. Similarly, The Executive Summary emphasizes the role of nature-based solutions and natural infrastructure (e.g., beaches, dunes, islands, marshes) as an alternative to conventional hardened infrastructure for flood and coastal storm risk reduction and represents the state of the science on conceptualizing, planning, designing, engineering, implementing and maintaining NNBF. Like the complete Guidelines, the same design and use of icons introduce each of the chapters in 3-5 pages by highlighting key messages. Readers should reference the complete Guidelines for more detail on any of the chapter topics.
The International Guidelines on Natural and Nature-Based Features for Flood Risk Management emphasize the role of nature-based solutions and natural infrastructure (e.g., beaches, dunes, islands, marshes) as an alternative to conventional hardened infrastructure for flood and coastal storm risk reduction and represents the state of the science on conceptualizing, planning, designing, engineering, implementing and maintaining NNBF. The Guidelines will equip decision-makers, project planners, and practitioners with strategies that reduce flood risks to communities and improve infrastructure resilience. The document is organized so readers can begin where their interests lie. The chapters were developed in a collaborative environment where there was communication and engagement across chapter teams. Each chapter begins with a list of its key, high-level messages, includes references to other chapters, and uses icons and case studies to draw attention to key topics covered elsewhere in the Guidelines.
This book provides an overview of the typical nature-based solutions (NBS) used for flood mitigation at different scales and in different areas (e.g. from catchment to hillslope scale; from urban to coastal areas). NBS can provide several ecosystem services, such as water regulation and water quality enhancement, and as such offer relevant technical solutions to complement typical grey infrastructures to mitigate flood hazard and water quality problems. In recent years, political awareness and interest from the scientific community have led to increasing implementation of NBS worldwide. In light of this trend, this book provides valuable insights into the environmental aspects of NBS, particularly their effectiveness for flood and pollution mitigation, and discusses socio-economic aspects related to the implementation of NBS, including regulatory aspects, cost, and citizens’ perceptions of NBS. Compiling the latest research, the book furthers our understanding of the role of NBS for flood mitigation and its relation to environmental aspects, to guide scientists and stakeholders in future NBS projects. It is intended for the scientific community and stakeholders, such as spatial planners and landscape managers. Chapter "Nature-based solutions for flood mitigation and resilience in urban areas" is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.
A new ‘Multi-Coloured Manual' This book is a successor to and replacement for the highly respected manual and handbook on the benefits of flood and coastal risk management, produced by the Flood Hazard Research Centre at Middlesex University, UK, with support from Defra and the Environment Agency. It builds upon a previous book known as the "multi-coloured manual" (2005), which itself was a synthesis of the blue (1977), red (1987) and yellow manuals (1992). As such it expands and updates this work, to provide a manual of assessment techniques of flood risk management benefits, indirect benefits, and coastal erosion risk management benefits. It has three key aims. First it provides methods and data which can be used for the practical assessment of schemes and policies. Secondly it describes new research to update the data and improve techniques. Thirdly it explains the limitations and complications of Benefit-Cost Analysis, to guide decision-making on investment in river and coastal risk management schemes.
Written by leading experts, ICE Handbook of Urban Drainage Practice provides an overview of key challenges, opportunities and future directions of urban drainage in a practical, accessible way. An invaluable tool for local authority engineers, environmental engineers, drainage design/operation engineers, and consultants or contractors.
Coastal Flood Risk Reduction: The Netherlands and the U.S. Upper Texas Coast represents the culmination of a 5-year international research and education partnership funded by the US National Science Foundation (NSF) and more than 10 years of collaboration between Dutch and U.S. flood experts on the basic issue of how to protect society from growing flood risks. Multiple case studies integrating the fields of engineering, hydrology, landscape architecture, economics, and planning address the underlying characteristics of physical flood risks and their prediction; human communities and the associated built environment; physical, social, and built-environment variables; and mitigation techniques. In recognition of the lack of systematic research and the growing societal need to better understand flood impacts, this edited book provides an in-depth, comparative evaluation of flood problems and solutions in two key places: the Netherlands and the U.S. Upper Texas Coast. Both regions are extremely flood-prone and have experienced continual adverse impacts throughout their histories. For researchers in flood management, geographers, hydrologists, environmental studies, and social science as well as policymakers and decision-makers in flood management authorities and related industries, this book provides an essential resource. - Introduces integrated comparative work on flood risk reduction and management across disciplines and international boundaries - Presents chapters written by dozens of experts across six U.S. and Dutch universities that have formally participated in the international research and education program funded by the U.S. National Science Foundation (NSF) - Provides a basis for understanding and mitigating flood risk over a range of necessary perspectives, from modeling inputs to design solutions - Integrates cutting-edge scientific methods and state-of-the-art knowledge with examples of specific solutions and how they are being implemented in each national case study
This book educates and introduce readers to the ways in which we can adapt to the threat of flooding throughout the built and natural environment. It offers advice on how to better understand the nature of flood risk, whilst highlighting the key approaches and principles necessary for developing community and property-level flood resilience. As a comprehensive and practical manual, this book includes richly illustrated diagrams on a variety of concepts and strategies to use when designing for flood resilience. It is vital resource for anyone looking to adapt to the threat of flood risk. Highly practical handbook for architects, students, engineers, urban planners and other built environment professionals Richly illustrated with practical examples and case studies Draws on research with the Cabinet Office, Environment Agency & Local Community as well as input from academic and industry experts, homeowners and residents of communities at risk of flooding.
River Flow 2022 includes the keynote lecture and contributed papers presented at River Flow 2022, the 11th International Conference on Fluvial Hydraulics (8-10 November 2022, Kingston and Ottawa, Canada; held virtually). River Flow 2022 provides an overview of the latest experimental, theoretical and computational findings on fundamental river flow and transport processes, river morphology and morphodynamics, while covering also issues related to the effects of hydraulic structures on flow regime, river morphology and ecology; sustainable river engineering practices (including stream restoration and re-naturalization); and effects of climate change including extreme flood events. The book presents the state-of-the-art in river research and engineering, and is aimed at academics and practitioners in hydraulics, hydrology and environmental engineering.