A translation of Guide de conception et de gestion Des Reseaux d'assainissement unitaires - etat de l'art, Paris 1996. The contents include: data on rainstorm run-off pollution; different types of weirs and accessories; computation and measurement of characteristics of weirs; evaluation and improvement of hydraulic output and its treatment; location, checking and choice of weir and its improvement; regulations concerning weir wastes; conclusions and strategy proposed for action and improvement of knowledge; and documents concerning computational methods. The case studies presented are: Impact of wastes of storm weirs; Weirs of Paris; Measurement of quality storm weirs; Measurement of quality of water in sanitary networks; Summary of investigations conducted on weirs of Paris and three districts of premiere Couronne; Management of works of the Boulogne Loop; Management of interdistrict work of the Parisian agglomeration; The plant at Acheres: a new scheme for 2001; and Strategy for overall management of sanitation in Seine Saint Denis."

Papers on mine and mill tailings and mine waste, as well as current and future issues facing the mining end environmental communities, are included and discussed in this text. The subjects covered relate to technical capabilities and developments, regulations, and environmental concerns.

In response to growing concern about the impact of environment on our lives, this unique book identifies the problems and opportunities of converting waste into useful material or fuel. Written by distinguished experts in this emerging field, cutting-edge research is provided on such issues as: waste utilization and recycling; plastics, polymers, tires, and automotive wastes; biosolids, biomass, and municipal solid wastes; and potential usage of coal conversion by-products. Information is also available on selected conversion processes, as well as the characterization, mitigation, and the use of by-product streams.

A text for a graduate or upper-level undergraduate course, and a reference for practicing cost, pollution, and environmental engineers. Explains methods for dealing with issues of hazardous waste such as cost growth, static and dynamic baseline development, contingency estimating, risk and uncertain

Water Conservation and Wastewater Treatment in BRICS Nations: Technologies, Challenges, Strategies, and Policies addresses issues of water resources-including combined sewer system overflows-assessing effects on water quality standards and protecting surface and sub-surface potable water from the intrusion of saline water due to sea level rise. The book's chapters incorporate both policies and practical aspects and serve as baseline information for future adaption plans in BRICS nations. Users will find detailed important information that is ideal for policymakers, water management specialists, BRICS nation undergraduate or university students, teachers and researchers.

Greywater Reuse examines the features and implications of greywater reuse scientifically, quantitatively, and thoroughly.Based on the authors' extensive studies of treatment facilities in urban and rural environments, development of greywater treatment systems, and research of potential environmental and health risks posed by greywater at different treatment levels, this authoritative text: Describes the chemical, physical, and microbial properties of greywater Covers the treatment and removal of greywater pollutants, providing case studies of common methods Identifies the risks involved in greywater use and proposes regulatory measures to help reduce these risks Reviews the greywater management strategies, policies, and legislation of several different countries Discusses the prevailing public perception and willingness to adopt various uses of greywater Analyzes the economic impact of greywater reuse from both the consumer and national perspectives Greywater Reuse addresses all major aspects related to greywater reuse, making it a valuable resource for a variety of applications.

Increasingly stringent regulation of pollution and waste production worldwide drives the need to isolate contaminants that pose a threat to human and environmental health by using engineered barrier systems involving the use of low permeable materials. Over the past two decades, geosynthetic clay liners have gained widespread acceptance for use in such barrier systems. They are often used as a component of primary and secondary base liners or final cover systems in municipal solid-waste landfills as well as in regulated industrial storage and mining waste-disposal facilities. This book gives a comprehensive and authoritative review of the current state of practice on geosynthetic clay liners in waste containments. It provides an insight into individual materials (bentonite and the associated geosynthetics) and the manufacturing processes. This is followed by the coverage of important topics such as hydraulic conductivity, chemical compatibility, contaminant transport, gas migration, shear strength and slope stability, and field performance.

A newcomer to the scene, aerobic granulation is on its way to becoming the hot new technology for high-efficiency wastewater treatment. Thus far, intensive research has been conducted with regard to the understanding of the mechanism of aerobic granulation in sequencing batch reactors (SBR) and its application in treating a wide variety of municipal and industrial wastewater. This basic research has promoted the technology from laboratory-study all the way to the present pilot- and full-scale application. The time is right for a reference that discusses the technology and its application in wastewater purification.

Wastewater Purification: Aerobic Granulation in Sequencing Batch Reactors discusses state-of-the-art research and application of this environmental biotechnology tailored to enhanced wastewater purification. The seventeen chapters provide a systematic and comprehensive understanding of aerobic granulation in SBR by incorporating fundamental principles of aerobic granulation withthe basis of process operation under various conditions. The book clearly explains what aerobic granules are and how they form. It elucidates key factors that influence aerobic granulation and addresses common problems encountered and their solutions.

This is the first book-length exploration of aerobic granulation. Other books that cover it are smaller, less comprehensive, less in depth, and less up to date. This book provides first-hand information derived from the authors' research and presents a newly-developed theory for aerobic granulation that offers a deep understanding into the essence of current aerobic granulation technology. Using this book as a platform, the technology can bedeveloped further and quickly applied in the wastewater treatment industry.

Many books have been written on hazardous waste and nuclear waste separately, but none have combined the two subjects into one single-volume resource. Hazardous and Radioactive Waste Treatment Technologies Handbook covers the technologies, characteristics, and regulation of both hazardous chemical wastes and radioactive wastes. It provides an overview of recent waste technologies.

A reference for scientists and engineers, the handbook focuses on waste-related thermal and non-thermal technologies, separation techniques, and stabilization technologies. It includes information on the DOE and DOD waste matrix located at various sites. It reveals current R&D activities in each technology and what improvements can be made in the future. A detailed schematic diagram illustrates each technology so that the process can be explicitly understood. In addition, the handbook covers relative life-cycle cost estimates for treatment systems using various technologies.

With contributions from an international panel and extensively peer-reviewed, Hazardous and Radioactive Waste Treatment Technologies Handbook provides the latest information on waste remediation technologies and related regulations. Often in the field you will encounter more than one type of hazardous waste. This handbook gives you the design information you need to decide which technology to use and how to design the equipment for your particular needs. You can then incorporate appropriate technologies into a mixed waste treatment system.

Examining the current literature, research, and relevant case studies, presented by a team of international experts, the Urban Water Reuse Handbook discusses the pros and cons of water reuse and explores new and alternative methods for obtaining a sustainable water supply. The book defines water reuse guidelines, describes the historical and current development of water reuse, and includes previously implemented methodologies and practices relevant to urban wastewater treatment. It considers the sustainability of water resources and supply systems in both urban and rural areas. The book discusses the advantages of water reuse (reduced water consumption, cost-savings, a secure groundwater replenishment source, and a long-term water supply) and outlines the disadvantages (a build-up of chemical pollutants in the soil, the probable contamination of groundwater attributed to reclaimed water, and possible human health risks related to the presence of viruses and bacteria). It also proposes ethical and cultural considerations, discusses the economic and environmental performance of water systems relevant to water reuse, and outlines associated methods and strategies that can address problems of water scarcity. In addition, this handbook addresses: Constructed wetlands in surrounding urban areas Water reuse in specific regions, coastal areas, cold regions, arid zones Application of wastewater for hydroelectric power generation Traditional systems of water reuse Combining harvesting systems and water reuse structures Warning systems for wastewater access control Public participation and implementation issues Groundwater recharge by unconventional water Urban water reuse policy A resourceful guide dedicated to the reuse of urban wastewater, the Urban Water Reuse Handbook focuses on wastewater treatment, recycling, and reuse for the conservation of water resources. This book serves as a reference for water resource engineers, urban hydrologists, and planning professionals; for water/wastewater engineers, students, policy makers, and researchers.

This book addresses scientists and engineers involved in the areas of uranium mining and milling sites, clean-up measures, emissions of nuclear power plants and radioactive waste disposal, as well as political decision-makers. The topics covered are: impact on groundwater from radionuclide emission, analytical speciation techniques, chemical toxicity, radioisotope plant uptake, microbiology catalyzing U(6+) to U(4+) reduction, geochemical and reactive transport, case studies on abandoned uranium mines and milling sites, long-term storage of radioactive waste, passive in situ treatment techniques and risk assessment studies.