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* A comprehensive overview of stormwater and wastewater collection methods from around the world, written by leading experts in the field * Includes detailed analysis of system designs, operation, maintenance and rehabilitation * The most complete reference available on the subject
This book is dedicated to the latest developments in: (a) new concepts to analyze the urban catchment hydrology for storm runoff predictions, (b) innovative methods to estimate the street allowable capacities to convey storm runoff, and (c) useful computer models to simulate flow movements in inlets and sewers.
Proper drainage system is one of the basic requirements of a road project. Poor drainage results into losses in the form of damaged roads and reduced serviceability. In spite of this, adequate priority for drainage system is rarely accorded. Funds required for a drainage system are small as compared to the enormous funds needed for development of road infrastructure and to meet the recurring losses due to poor drainage. It is necessary that due priority is given to the drainage of roads to ensure sustainability of road infrastructure. The road drainage issues which most of the cities in countries like India face today have been identified with the help of a study undertaken in Panipat city, an industrial city of Haryana, India. It also exhibits the urgent need for a rational and simple design of road drainage system. As the existing guidelines for the design of road drainage system have some shortcomings in respect of clarity on some of the design parameters and their complexity to use, the book brings forth the simplified design guidelines for the design of road side drainage system.
Good drainage contributes to the delivery of sustainable, innovative and resilient buildings, and is essential for our health and wellbeing. However, designers and architects can often leave drainage to be implemented by specialists in isolation of other design considerations, resulting in costly changes, rework and repairs, operational discomfort and poor user experiences that could have been avoided. Written for building designers and allied professionals, homeowners and managers as well as the general public, Building Drainage promotes an integrative and collaborative approach. Key principles and components of drainage design are presented in an accessible manner with many UK examples where the underlying information and knowledge can be applied internationally. coverage includes waste and foul water drainage systems and the benefits of integrated water management (IWM) approach, where 'waste' becomes a valuable resource; surface and rainwater drainage; water and energy efficiency through wastewater recycling and reuse, and heat recovery. After reading this book you will understand the mostly invisible, or unperceived, yet vital aspects of functional drainage design and their interaction with the architecture of the building as well as the local and global environments.
This book provides a review of the principles and methods of drainage with an emphasis on design. The whole field of drainage is covered, and although the book concentrates mainly on the practice in North America, Europe and Britain, the practice in developing countries is also included. The book is directed primarily at the graduate engineer entering professional practice, but will also provide a useful reference for more senior engineers and for those in adjunct professions. Chapter 1 outlines the necessity for drainage on a large or small scale, for rural and urban areas. As the drainage engineer must decide how much unwanted water there will be and when it will occur, the chapter discusses climatic types, prediction of rainfall, evapotranspiration effects, return periods (of design storms and runoff events), river flow and flood prediction, and various sensing systems for providing short term predictions of rainfall, runoff, streamflow and flood warning. Chapter 2 gives a thorough review of the properties of soil in the context of drainage design. The extensive mathematical theories which relate to the crucial area of soil water movement are outlined and due attention is paid to the growing importance of predicting soil water movement in partially saturated soils.
Prepared byØtheØTask Committee of the Urban Water Resources Research Council of ASCE. Copublished by ASCE and the Water Environment Federation. Design and Construction of Urban Stormwater Management Systems presents a comprehensive examination of the issues involved in engineering urban stormwater systems. This Manual?which updates relevant portions of Design and Construction of Sanitary and Storm Sewers, MOP 37?reflects the many changes taking place in the field, such as the use of microcomputers and the need to control the quality of runoff as well as the quantity. Chapters are prepared by authors with experience and expertise in the particular subject area. The Manual aids the practicing engineer by presenting a brief summary of currently accepted procedures relating to the following areas: financial services; regulations;Ø surveys and investigations;Ø design concepts and master planning;Ø hydrology and water quality;Ø storm drainage hydraulics; andØ computer modeling.
In a single volume, Standards ANSI/ASCE/EWRI 12-13, 13-13, and 14-13 establish the guidelines for design, installation, and operation and maintenance of urban subsurface drainage systems.
This book is a printed edition of the Special Issue "Sustainable Drainage Systems" that was published in Water