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Books > Professional & Technical > Environmental engineering & technology > Sanitary & municipal engineering > Waste treatment & disposal
Wastewater treatment plants usually generate millions of tons of sewage sludge every year. Sewage sludge results from the accumulation of solids from chemical coagulation, flocculation and sedimentation during wastewater treatment. Worldwide, sludge production is steadily increasing, driven by the increasing percentage of households connected to central treatment plants, the increasing tightening of pollution limits on the effluent discharged, as well as the availability of technologies capable of achieving higher efficiency of wastewater treatment. Sewage sludge contains undesirable hazardous substances such as trace elements, pesticides and endocrine disruptors, pathogens and other microbiological pollutants. Therefore, sludge has to be properly treated and disposed of to prevent environmental contamination and health risk. Sludge processing is intended to improve dewatering characteristics, eliminate disease-causing bacteria, reduce smell and decrease the quantity of organic solids. In this way, the end product can be treated further or disposed of with less handling problems and environmental consequences. This new important book gathers the latest research from around the globe on this issue.
Tannery is one of the most polluting industries. In order to recover the process water and costly chemicals, membrane based processes can be effectively used to treat the effluent emerging from each of the tannery units. This book presents a systematic and comprehensive study to develop a greener route to treat such effluents. It is to be emphasised that no such book dealing with application of membrane filtration in tannery waste exists currently. Therefore, this book obviously has significant advancement compared to existing books on membrane technology. This book will have two fold impacts. Firstly, its academic value is quite high; Secondly, it will have remarkable impact of scaling up such system in actual industrial scale from pilot plant data in an emerging area. This book presents detailed description of the membrane based processes to treat the effluent from various units operations of a tannery. The results are analysed in full detail. This book is a first kind of its own in this emerging field.
Immobilisation of high level toxic wastes by vitrification is a well established process that has been studied extensively over last 40 years. A suitable glass host is used to dissolve the high level nuclear waste to form a glassy (vitreous) homogeneous product that can be cast into suitable forms, including large glass blocks. The main advantages of the vitrification route include the fact glass is a good solvent for waste, glasses can be processed at reasonably low temperatures, glass is very tolerant of variations in waste composition, glass exhibits reasonable chemical durability, glass is radiation resistant and can accommodate changes occurring during decay of high level nuclear waste constituents. This book analyses the immobilisation of high level toxic wastes through the use of an appropriate glass host.
Human activity is strictly linked with the production of waste, i.e., materials and substances that are undesired and cannot be used further. On the one hand these substances are natural to the environment, eliminated from further technological process by their uselessness (e.g. mining waste), or represent new products such as anthropogenic waste, being the by-product of industrial and agricultural activities. A separate group comprises municipal waste that is not linked with production but results from human dwelling. Utilisation actions aiming at neutralising and/or removal of waste are focused on substances that due to their existing or potential chemical activity may negatively influence the biosphere. Non-active substances represent alien elements in the natural environment, but due to their passive character, their utilisation is concentrated on non-conflicting storage. Active pollutants influencing the natural environment penetrate it as gaseous emanations, fluids (sewage and effluents) and solids. This book addresses this very important issue and covers the topic of restriction of emission and removal of hazardous gaseous emanations that should be conducted in places where they are formed. Imperfection of the applied technology or its lack results in atmospheric pollution. This problem can be of local (around industrial plants, e.g. chemical works, food processing plants, around farmsteads and stock farms), country or global range (emission of CO2, nitrogen compounds, gases hazardous to the ozone layer).
Sewage is mainly a liquid waste containing some solids, produced by humans. It typically consists of washing water, faeces, urine, laundry waste and other material which goes down drains and toilets from households and industry. Sewage sludge is an end product of the wastewater treatment process. This material can be a wonderful source of nutrients for the soil. This book provides current studies and research on the treatment and use of sewage. Using this material as a fertiliser can benefit the environment by turning wastes into valuable resources. These sludges would otherwise have to be disposed of by landfilling, lagooning, incineration, or ocean dumping. On the other hand, heavy metals sometimes found in sewage sludge may present environmental problems as there is filtration of metals towards the aquifers which get contaminated. This book addresses these concerns as well as benefits.
Publisher's Note: Products purchased from Third Party sellers are not guaranteed by the publisher for quality, authenticity, or access to any online entitlements included with the product. Implement successful solid waste analysis and minimization strategies Provide sustainable solutions to solid waste issues with help from this hands-on guide. Solid Waste Analysis and Minimization: A Systems Approach offers up-to-date technical details on current and potential solid waste minimization practices. This authoritative resource presents a framework for the proper application of solid waste analysis tools, and demonstrates the benefits in terms of environmental impact, process efficiencies, and financial enhancement. Twenty-one real-world case studies covering all industries, from manufacturing to service facilities, are included. Solid Waste Analysis and Minimization: A Systems Approach covers: U.S. and international waste generation rates Industrial ecology, solid waste exchanges, and recycling Environmental, economic, corporate image, personal, and social benefits of solid waste management and minimization Solid waste assessment strategies and launch plans The Six Sigma systems approach for deployment Metrics and performance measurement for solid waste management Documentation and development of the deployment plan Implementation and execution of the solid waste minimization plan Communicating and leveraging success Solid waste modeling, research, and data collection Characterization by business activities Estimation, prediction, and evaluation
This book focuses on waste management which is the collection, transport, processing, recycling or disposal of waste materials. The term usually relates to materials produced by human activity, and is generally undertaken to reduce their effect on health, aesthetics or amenity. Waste management is also carried out to reduce the materials' effect on the environment and to recover resources from them. Waste management can involve solid, liquid or gaseous substances, with different methods and fields of expertise for each. Waste management practices differ for developed and developing nations, for urban and rural areas, and for residential and industrial, producers. Management for non-hazardous residential and institutional waste in metropolitan areas is usually the responsibility of local government authorities, while management for non-hazardous commercial and industrial waste is usually the responsibility of the generator.
A landfill is a site for the disposal of waste materials by burial. Historically, landfills have been the most common methods of organised waste disposal and remain so in many places around the world. Landfills may include internal waste disposal sites as well as sites used by many producers. Many landfills are also used for other waste management purposes, such as the temporary storage, consolidation and transfer, or processing of waste material (sorting, treatment, or recycling). A landfill also may refer to ground that has been filled in with soil and rocks instead of waste materials, so that it can be used for a specific purpose, such as for building houses. Unless they are stabilised, these areas may experience severe shaking or liquefaction of the ground in a large earthquake. This book presents new research in a field which is demanding and beginning to receive society's attention.
To most, the flush of a toilet seems a routine motion to banish waste and ensure cleanliness: safe, efficient, necessary, nonpolitical, and utterly unremarkable. However, Jamie Benidickson's examination of the social and legal history of sewage in Canada, the United States, and the United Kingdom demonstrates that the uncontroversial reputation of flushing is deceptive. In a time when community water quality can no longer be taken for granted, this book is particularly relevant, as it delves into and clarifies the murky issues surrounding the evolution of the culture of flushing.Drawing upon the experience of urban centres, including Toronto, Chicago, New York, and London, The Culture of Flushing carefully analyzes more than two hundred years of history to describe how we conveniently came to view streams as nature's sewers, and how water, one of our planet's most precious resources, became an acceptable medium for the disposal of urban and industrial waste. Informed by the evolution of legal doctrine, contemporary understanding of the chemical and biological characteristics of water, changing theories of disease, and the influence of professionals in such fields as public health, engineering, and economics, this book pushes the reader to seriously reconsider our casual habit of flushing it all away.Unique, comprehensive, and accessible, The Culture of Flushing will appeal to everyone from specialists in environmental history, environmental law, public health, engineering, and public policy to the general reader concerned with protecting water quality and the environment.
This book adopts a "show and tell" approach to guiding readers in the area of industrial wastewater treatment and the facilities associated with such treatment. It assumes the reader is familiar with wastewater treatment theory but may be unfamiliar with the reasons why certain unit processes or equipment are included in practice, how these work, and why they fail therein. Industrial wastewaters are extremely varied and this complicates their treatment and discussion. Numerous tables showing industrial wastewater characteristics and photographs of facilities are provided so that the reader can better appreciate industrial wastewater treatment and its "culture" in Asia, and gain a degree of familiarity with the subject unachievable if only text descriptions were used. The book aims to provide a link between theory and practice. It does not only cover typical textbook material but also includes much information that would usually be accessible only to persons who have handled wastewaters and treatment facilities personally. The numerous examples provided have been drawn from the author's own field experience over two decades in Asia.
The most common activated sludge operating problems causing poor plant performance are related to solids separation. Especially common are bulking and foaming. Without a proper scientific foundation to support the efforts of wastewater treatment plant management, many attempts to thwart bulking and foaming have failed.
Nanocomposites have better adsorption capacity, selectivity, and stability than nanoparticles. Therefore, they find diversified applications in many areas. Recently, various methods for heavy metal detection from water have been extensively studied. The adsorption of various pollutants such as heavy metal ions and dyes from the contaminated water with the help of nanocomposites has attracted significant attention. This book presents a comprehensive discussion on wastewater research. It covers a vast background of the recent literature. It describes the applications of nanocomposites in various areas, including environmental science. Particularly, it is highly useful to researchers involved in the environmental and water research on nanocomposites and their applications. The book covers a broad research area of chemistry, physics, materials science, polymer science and engineering, and nanotechnology to present an interdisciplinary approach and also throws light on the recent advances in the field.
This concisely written and easy-to-read resource provides information on emerging issues and valuable historical context that enables students to better understand a broad range of environmental health topics, from pollution to infectious diseases, natural disasters, and waste management. As technology enables better insight into the world we live in, we are increasingly aware of environmental health concerns and risks, from contaminated air and water to infectious diseases and light and noise pollution. Because the quality of our lives depends on the quality of our environment, everyone should be informed about issues in environmental health. Environmental Health in the 21st Century: From Air Pollution to Zoonotic Diseases presents hundreds of encyclopedic entries written by expert researchers and practitioners, a history of environmental health, and interviews with subject experts that broadly survey the field of environmental health. The set covers myriad subjects in environmental health, including all types of environmental pollution; the spread of communicable diseases and other issues in the health sciences; waste management practices; the effects of climate change on human health; children's environmental health concerns; environmental health problems unique to the urban environment; and emerging threats such as the Zika virus and hospital-acquired infections. Readers will learn about steps they can take to reduce their environmental risk, understand the effects of key international treaties and conventions and the contributions of key figures in environmental health, and also reflect on potential solutions for global challenges in environmental pollution, health sciences, energy and climate, waste management, and the built environment. No other book on the market today addresses the environmental health field in such a comprehensive manner, with the latest information provided by expert practitioners, all packed into two concise volumes. Supplies introductory materials that provide a conceptual framework for readers Includes contributions from more than 50 expert researchers and practitioners as well as information from interviews with leaders in the environmental health field Presents historical context for current developments concerning environmental health Offers suggestions on steps individuals can take to reduce their environmental health risk and stay healthy
This book is the first volume in a three-volume set on Solid Waste Engineering and Management. It provides an introduction to the topic, and focuses on legislation, transportation, transfer station, characterization, mechanical volume reduction, measurement, combustion, incineration, composting, landfilling, and systems planning as it pertains to solid waste management. The three volumes comprehensively discuss various contemporary issues associated with solid waste pollution management, impacts on the environment and vulnerable human populations, and solutions to these problems.
The large quantity of waste generated from agricultural and food production remains a great challenge and an opportunity for the food industry. As there are numerous risks associated with waste for humans, animals and the environment, billions of dollars are spent on the treatment of agricultural and food waste. Therefore, the utilisation of bioactive compounds isolated from waste not only could reduce the risks and the costs for treatment of waste, but also could potentially add more value for agricultural and food production. This book provides comprehensive information related to extraction and isolation of bioactive compounds from agricultural and food production waste for utilisation in the food, cosmetic and pharmaceutical industries. The topics range from an overview on challenges and opportunities related to agricultural and food waste, the bioactive compounds in the waste, the techniques used to analyse, extract and isolate these compounds to several specific examples for potential utilisation of waste from agricultural and food industry. This book also further discusses the potential of bioactives isolated from agricultural and food waste being re-utilised in the food, cosmetic and pharmaceutical industries. It is intended for students, academics, researchers and professionals who are interested in or associated with agricultural and food waste.
This book provides a balanced discussion about the wastewater generated by hydraulic fracturing operations, and how to manage it. It includes an in-depth discussion of the hydraulic fracturing process, the resulting water cycle, and the potential risks to groundwater, soil, and air. The "fracking" process involves numerous chemicals that could potentially harm human health and the environment, especially if they enter and contaminate drinking water supplies. Treatment, reuse, and disposal options are the focus, and several case studies will be presented. The book also discusses the issues of the large amounts of water required for drilling operations, the impacts on water-sensitive regions.
This title includes a number of Open Access chapters. The activated sludge process is one of the most versatile and commonly used wastewater treatment systems in the world. In the past, when industrial wastewater treatment focused on removing biological oxygen demand and suspended solids, waste water plants needed different processes and technology. The shift to the activated sludge process means environmental engineers must build new treatment plants and retrofit old ones. In this compendium, the editor, an experienced and well-published scientist in the field, has brought together articles that relate to the new requirements.
Guidelines for Mine Waste Dump and Stockpile Design is a comprehensive, practical guide to the investigation, design, operation and monitoring of mine waste dumps, dragline spoils and major stockpiles associated with large open pit mines. These facilities are some of the largest man-made structures on Earth, and while most have performed very well, there are cases where instabilities have occurred with severe consequences, including loss of life and extensive environmental and economic damage. Developed and written by industry experts with extensive knowledge and experience, this book is an initiative of the Large Open Pit (LOP) Project. It comprises 16 chapters that follow the life cycle of a mine waste dump, dragline spoil or stockpile from site selection to closure and reclamation. It describes the investigation and design process, introduces a comprehensive stability rating and hazard classification system, provides guidance on acceptability criteria, and sets out the key elements of stability and runout analysis. Chapters on site and material characterisation, surface water and groundwater characterisation and management, risk assessment, operations and monitoring, management of ARD, emerging technologies and closure are included. A chapter is also dedicated to the analysis and design of dragline spoils. Guidelines for Mine Waste Dump and Stockpile Design summarises the current state of practice and provides insight and guidance to mine operators, geotechnical engineers, mining engineers, hydrogeologists, geologists and other individuals that are responsible at the mine site level for ensuring the stability and performance of these structures.
Starting with the 2010 Gulf of Mexico Deepwater Horizon oil spill incident, Oil Spill Impacts: Taxonomic and Ontological Approaches chronicles a timeline of events that focus on the impact of oil spills and provides an understanding of these incidents using a number of approaches. The book includes an interdisciplinary oil spill taxonomy, an oil spill topic map, and highlights information-organization tools, such as indexes, taxonomies, and topic maps that can be used to connect information resources with concepts of interest. The topic map combines the function of ontology with the function of organized information resources, and contains thousands of concepts and their relationships extracted from approximately 300 documents stemming from various academic conference presentations, journal articles, news reports, and web pages. Divided into four parts, the book begins with a brief introduction of the Gulf of Mexico Deepwater Horizon oil spill events followed by a breakdown of the taxonomy concepts distributed into categories and their subcategories. The book then describes the oil spill topic map separated by concepts, relationships, and references. This interdisciplinary reference provides to its readers: The perspective of multiple disciplines instead of just one discipline An indication of the most important topics in the oil spill domain Developed research in the oil spill and oil drilling areas A broad and detailed view of oil spill issues The book serves students, teachers, and researchers interested in oil spill issues, oil spill incidents, and addresses their impacts that involve coastal and marine environmental sciences, biological sciences, chemistry, disaster management, geology, sociology, and government policy.
Disposal and Management of Solid Waste: Pathogens and Diseases takes a closer look at pathogens that are found in solid wastes and the diseases that they produce. While comparing the differences between developed and developing countries, this book provides an understanding of the risks and exposure of pathogens in solid wastes, addresses pathogens in soil and plants, and bioaerosols, and helps readers determine how pathogens can be directly or indirectly detrimental to human health. The text places special emphasis on developing countries where environmentally safe systems are relatively rare, and provides extensive details on potential sources of infection and disease. The author discusses the transmission routes of diseases and pathogens from various solid wastes, and presents the proper disposal options and the management of solid waste. This book covers: Global aspects of pathogens and diseases from solid waste Pathogens and diseases in various solid wastes other than hospital wastes Disposal and management of solid wastes in relation to diseases Disposal and Management of Solid Waste: Pathogens and Diseases describes the various pathogens and diseases that can be found in solid waste, and utilizes recent available data to offer insight and suggestions on the management and disposal of solid waste to reduce infection and disease.
Providing an introduction, the scientific background, case studies and future perspectives of in-situ arsenic remediation technologies for soils, soil water and groundwater at geogenic and anthropogenic contaminated sites. The case studies present in-situ technologies about natural arsenic, specifically arsenate and arsenite, but also about organic arsenic compounds. This work covers geochemical, microbiological and plant ecological solutions for arsenic remediation. It will serve as a standard textbook for (post-)graduate students and researchers in the field of Environmental Sciences and Hydrogeochemistry as well as researchers, engineers, environmental scientists and chemists, toxicologists, medical scientists and even for general public seeking an in-depth view of arsenic which had been classed as a carcinogen. This book aims to stimulate awareness among administrators, policy makers and company executives of in-situ remediation technologies at sites contamined by arsenic and to improve the international cooperation on the subject.
Approximately 15,000 combined sewer overflow events (CSOs) occur annually. During peak storm events they can release about 1.2 trillion gallons of waste and up to 95% of a municipality's raw sewage into surface waters. Although many cities have initiated programs, the CSO problem remains largely unsolved and continues to be a major area of responsibility for environmental professionals, engineers, and public works officials.
Presenting cutting-edge thinking in the fields of mine and mill
tailings, and mine waste, these proceedings also discuss current
and future issues facing the mining and environmental communities,
including matters dealing with technical capabilities and
developments, regulations, and environmental concerns.
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. |
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