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The complete guide to managing the quantity and quality of urban storm water runoff. Focuses on the planning and design of facilities and systems to control flooding, erosion, and non-point source pollution. Explains the practical application of the state-of-the-art in concepts and methods, based on the author's nearly 20 years' urban water resources engineering experience in the public and private sectors--and the state-of-the-art of urban surface water management is far ahead of the state-of-the-practice. This book covers all the major methods, and discusses other available, but little-known, concepts, tools, and techniques. Chapters cover the emergency and convenience system concept, master planning, computer modeling, multi-purpose flood control/water-quality enhancement/recreation facilities, and more.
The rapid conversion of land to urban and suburban areas has profoundly altered how water flows during and following storm events, putting higher volumes of water and more pollutants into the nation's rivers, lakes, and estuaries. These changes have degraded water quality and habitat in virtually every urban stream system. The Clean Water Act regulatory framework for addressing sewage and industrial wastes is not well suited to the more difficult problem of stormwater discharges. This book calls for an entirely new permitting structure that would put authority and accountability for stormwater discharges at the municipal level. A number of additional actions, such as conserving natural areas, reducing hard surface cover (e.g., roads and parking lots), and retrofitting urban areas with features that hold and treat stormwater, are recommended.
Sustainable Surface Water Management: a handbook for SUDS addresses issues as diverse as flooding, water quality, amenity and biodiversity but also mitigation of, and adaptation to, global climate change, human health benefits and reduction in energy use. Chapters are included to cover issues from around the world, but they also address particular designs associated with the implementation of SUDS in tropical areas, problems with retrofitting SUDS devices, SUDS modelling, water harvesting in drought-stricken countries using SUDS and the inclusion of SUDS in the climate change strategies of such cities as Tokyo, New York and Strasbourg.
"Advanced Insights in Hydrology and Water Resources" is a comprehensive exploration of contemporary and emerging topics in hydrology, groundwater, and water resource management. This book delves into the complexities of hydrological processes, offering a deep dive into how climate change, land use, and human activities like agriculture and mining impact water systems. From the unique challenges faced in arid regions to the integration of surface and groundwater use, the chapters provide a blend of theoretical insights and practical strategies. Highlighting technological advancements, community-based management, and sustainable practices, this book is an essential resource for understanding the intricate balance required to manage and conserve water resources in a changing world.
This book brings together the experiences of engineers and scientists from Australia and the United Kingdom providing the current status on the management of stormwater and flooding in urban areas and suggesting ways forward. It forms a basis for the development of a framework for the implementation of integrated and optimised storm water management strategies and aims to mitigate the adverse impacts of the expanding urban water footprint. Among other topics it also features management styles of stormwater and flooding and describes biodiversity and ecosystem services in relation to the management of stormwater and the mitigation of floods. Furthermore, it places an emphasis on sustainable storm water management measures. Population growth, urbanisation and climate change will pose significant challenges to engineers, scientists, medical practitioners, policy makers and practitioners of several other disciplines. If we consider environmental and water engineers, they will have to face challenges in designing smart and efficient water systems which are robust and resilient to overcome shrinking green spaces, increased urban heat islands, damages to natural waterways due to flooding caused by increased stormwater flow. This work provides valuable information for practitioners and students at both senior undergraduate and postgraduate levels.
Continuing growth of urban population in the world and, especially in Developing countries, is one of the most frightening problems of today. Megacities - cities with more than ten million inhabitants, are growing fastest in Developing countries and their problems are to be put on top of all well-known environmental problems of the world.
We, the editors, have long believed that a strong knowledge of relatively simple economic and engineering concepts is valuable in solving water management problems. The lack of such knowledge has been apparent to us in some of the journal articles, research proposals and books we have reviewed. The articles which have been written concerning specific local water economies and management issues are scattered over a wide variety of journals, making them hard to access. Most of the extensive water resources literature is concerned with large regional water projects or with narrow technical and regional issues. This book was written to make practical economic and engineering concepts readily available to urban water supply managers, thereby filling a gap in the available literature. It is concerned with decisions made daily, monthly, or annually by managers of urban water supply systems. The book includes basic chapters presenting supply and cost concepts, calculation of demand elasticities, use of marketing concepts, public goods analysis, water markets, industrial water demand and the use of price in water conservation. The authors have included multiple examples of how these concepts can aid in managing urban water supply. The water provider is generally a governmental entity or regulated private utility. Most books on public utilities and their management emphasize gas, electricity, or telephone rather than water. Water is different because of m~or variations in quality by source and the necessity for proper disposal of waste water.