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The cost of ever more freguent floods, landslides and erosion on coastal and fluvial structures is considerable. Through more detailed consideration of the risks and their acceptability, the engineering community could make a 5% saving in the whole-life costs of coastal and fluvial engineering projects, amounting to 250 million annually in the UK alone.This book sets out to provide clear guidance on the process of setting acceptable risk levels. It illustrates the importance of involving all stakeholders in the setting of acceptable risk levels and throughout the deisgn process.
"Contractors involved in construction in, or adjacent to, rivers and estuaries are open to a range of construction risks from working in this environment. - Not only the primary risk of flooding, but significant risk also stems from scour, poor ground conditions, site drainage, plant operation, site access and tidal impact. - The construction works themselves may also have an impact on the river including impact on flood water levels, changes to the local river regime, scour or siltation and effects on navigation and environmental impacts such as pollution. - "This Manual assists in identifying and managing risks in works design and construction. - Guidance is offered on risk assessment and management techniques, along with the identification of typical risk issues likely to be encountered in the river and estuary environment. - It is essential reading for clients, project funders, contractors, consulting engineers (both in design and supervision role), insurers and those interested with the risks associated with river and estuary engineering."--BOOK JACKET.
There is currently an ongoing programme of UK harbour and marina development, encouraged by government investment. This book offers a detailed analysis of the risks involved in coastal engineering.
Existing coastal management and defense approaches are not well suited to meet the challenges of climate change and related uncertanities. Professionals in this field need a more dynamic, systematic and multidisciplinary approach. Written by an international group of experts, Coastal Risk Management in a Changing Climate provides innovative, multidisciplinary best practices for mitigating the effects of climate change on coastal structures. Based on the Theseus program, the book includes eight study sites across Europe, with specific attention to the most vulnerable coastal environments such as deltas, estuaries and wetlands, where many large cities and industrial areas are located. Integrated risk assessment tools for considering the effects of climate change and related uncertainties Presents latest insights on coastal engineering defenses Provides integrated guidelines for setting up optimal mitigation measures Provides directly applicable tools for the design of mitigation measures Highlights socio-economic perspectives in coastal mitigation
"Over 200 billion worth of assets are at risk around British rivers and coasts and those risks are likely to increase over the next 100 years due to changes in climate and in society." Sir David King, Government Chief Scientific Adviser This book presents a comprehensive insight into the flooding system, spanning multiple disciplines across different sectors of the flood and flood management professions. It forecasts the manner in which flooding and coastal erosion risks may increase during the 21st century due to climate change.
Although many theoretical developments have been achieved in recent years, the progress both in understanding and application of risk and reliability analysis in water resources and environmental engineering remains slow. One of the reasons seems to be the lack of training of engineers with phenomena of statistical nature, including optimum cost and benefit decisions under uncertainty. This book presents, in a unified and comprehensive framework, the various aspects of risk and reliability in bothwater quantity and quality problems. The topics covered include uncertainty analysis of water quantity and quality data, stochastic simulation of hydrosystems, decision theory under uncertaintyand case studies. Methods for risk analysis of extremes in hydrology, groundwater clean-up, river and coastal pollution as well as total risk management are presented.
This timely book is about how to design alternatives to reduce coastal flood and wave damage, erosion, and loss of ecosystems facing an unknown future of sea level rise. The latest theories are interlaced with applied examples from the authors' 48 years of experience in teaching, research, and as a practicing, professional engineer in coastal engineering. The design process takes into consideration all the design constraints (scientific, engineering, economic, environmental, social/political/institutional, aesthetic, and media) to meet today's client needs, expectations, and budgets for an uncertain future.The book is organized as a textbook for graduate students. And, it is a self-contained reference for government and consulting engineers responsible for finding solutions to coastal hazards facing the world's coastal populations. New solutions are included in the book that help people of all socio-economic levels living at the coast. Both risk reduction metrics quantified in monetary terms, and increased resilience metrics quantified as vulnerability reduction must now be taken into consideration to make equitable design decisions on hazard mitigation alternatives.In the Anthropocene Era, under 'deep uncertainty' in global mean sea level predictions for the future, today's designs must mitigate today's storm damages, and be adaptable for the unpredictable water levels and storms of the future. This book includes a design 'philosophy' for water levels to year 2050 and for the long term from 2050 to 2100. Multiple spreadsheets are provided and organized to aid the design process.This is an exciting time to be 'thinkers' as Civil/Coastal engineers.Related Link(s)
"This interim guide to quantitative risk assessment for UK reservoirs provides a tool for the management of reservoir safety by experienced dam professionals. It comprises a screening level assessment of the risk of failure of a dam, i.e. the uncontrolled sudden large release of water from the reservoir it retains." "The guide is in the form of a Microsoft Excel workbook with proforma calculations, and accompanying text. It is intended to form part of either a periodic safety review or a portfolio risk assessment, where application of this guide identifies potential concerns a more detailed assessment is likely to be appropriate."--Résumé de l'éditeur.
This informative manual has been designed to provide guidance on the principal issues surrounding the use of timber in coastal and river engineering. For centuries timber has traditionally been used for the construction of a wide range of coastal and river structures including: groynes, jetties, lock gates, navigation aids and riverbank protection. It is an attractive choice of construction material because it is renewable, is easy to use, repair and recycle, has a high strength/weight ratio and is visually appealing.
Risk and Reliability: Coastal and Hydraulic Engineering sets out the methods which are increasingly being required by Government Agencies for river and sea defence design and flood defence system management. And it shows how to describe uncertainty in the performance of flood and erosion defences.It introduces the key statistical concepts required