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Waste incineration is the art of completely combusting waste, while maintaining or reducing emission levels below current emission standards. Where possible, objectives include the recovering of energy as well as the combustion residues. Successful waste incineration makes it possible to achieve a deep reduction in waste volume, obtain a compact and sterile residue, and eliminate a wide array of pollutants. This book places waste incineration within the wider context of waste management, and demonstrates that, in contrast to landfills and composting, waste incineration can eliminate objectionable and hazardous properties such as flammability and toxicity, result in a significant reduction in volume, and destroy gaseous and liquid waste streams leaving little or no residues beyond those linked to flue gas neutralization and treatment. Moreover, waste incineration sterilizes and destroys putrescible matter, and produces usable heat. Incineration Technologies first appeared as a peer-reviewed contribution to the Encyclopedia of Sustainability Science and Technology. It provides detailed treatment of the challenges of this technically complex process, which requires huge investment and operating costs, as well as good technical skills in maintenance and plant operation. Particular attention is paid to technologies for ensuring the complete burn-out of flue gas and residues and for controlling the resulting pollutants.
Incineration has been used widely for waste disposal, including household, hazardous, and medical wasteâ€"but there is increasing public concern over the benefits of combusting the waste versus the health risk from pollutants emitted during combustion. Waste Incineration and Public Health informs the emerging debate with the most up-to-date information available on incineration, pollution, and human healthâ€"along with expert conclusions and recommendations for further research and improvement of such areas as risk communication. The committee provides details on: Processes involved in incineration and how contaminants are released. Environmental dynamics of contaminants and routes of human exposure. Tools and approaches for assessing possible human health effects. Scientific concerns pertinent to future regulatory actions. The book also examines some of the social, psychological, and economic factors that affect the communities where incineration takes place and addresses the problem of uncertainty and variation in predicting the health effects of incineration processes.
Waste Incineration Handbook discusses the basic concepts and data on wastes combustion, including the management of waste incineration as a means to control pollution, as well as the process technologies involved. The book reviews the combustion principles such as fuel-to-air ratio, the products of combustion, material and thermal balances. Incineration produces emissions in the form of particulate matter, odorous or noxious gases. Conventional particle capturing devices use gravity settling, inertia or momentum, filtration or electrostatic precipitation, and agglomeration via sonic mechanical means to facilitate removal by increasing particle size. Secondary combustion with or without catalysts, and wet scrubbing control are methods to control or eliminate objectionable odors. The design and operation of an efficient incinerator is based on proper proportions of air and fuel; sufficient temperature; adequate furnace volume; constant maintenance of ignition temperatures; and minimized fly-ash entrainment. The text also discusses on-site incineration and incineration at sea. The book is suitable for economists, environmentalists, ecologists, marine ecologists, and policy makers involved in environmental preservation and pollution control.
Covering each aspect of an incineration facility, from contaminant receipt and storage to stack discharge and dispersion, this reference explores the operation and evaluation of incineration systems for hazardous and non-hazardous gaseous, liquid, sludge, and solid wastes. Highlighting breakthroughs in air pollution control, the book discusses adva
The collection, transportation and subsequent processing of waste materials is a vast field of study which incorporates technical, social, legal, economic, environmental and regulatory issues. Common waste management practices include landfilling, biological treatment, incineration, and recycling – all boasting advantages and disadvantages. Waste management has changed significantly over the past ten years, with an increased focus on integrated waste management and life-cycle assessment (LCA), with the aim of reducing the reliance on landfill with its obvious environmental concerns in favour of greener solutions. With contributions from more than seventy internationally known experts presented in two volumes and backed by the International Waste Working Group and the International Solid Waste Association, detailed chapters cover: Waste Generation and Characterization Life Cycle Assessment of Waste Management Systems Waste Minimization Material Recycling Waste Collection Mechanical Treatment and Separation Thermal Treatment Biological Treatment Landfilling Special and Hazardous Waste Solid Waste Technology & Management is a balanced and detailed account of all aspects of municipal solid waste management, treatment and disposal, covering both engineering and management aspects with an overarching emphasis on the life-cycle approach.
Ever increasing amounts of solid waste and dwindling space for disposal is a problem reaching crisis level in many of the world's largest urban areas. Incineration as an alternative to landfill has come under scrutiny, though the capital and operating costs generally exceed those associated with landfill. This report provides background information for the "Decision-maker' guide to municipal solid waste (MSW) incineration". Key criteria for a solid waste incineration scheme are identified, and the report gives decision makers information on how to investigate and assess the degree to which they are fulfilled.
This text covers a broad spectrum of topics pertinent to the management of incinerator residues. Background information includes a history of incineration, and the influence of municipal waste composition, incinerator type air pollution control technologies on residue quality. Physical, chemical and leaching characteristics for the various ash streams are described, along with recommended sampling and evaluation methodologies. Residue handling and management options, including, treatment utilisation and disposal are also discussed in detail.
Sludge Treatment and Disposal is the sixth volume in the series Biological Wastewater Treatment. The book covers in a clear and informative way the sludge characteristics, production, treatment (thickening, dewatering, stabilisation, pathogens removal) and disposal (land application for agricultural purposes, sanitary landfills, landfarming and other methods). Environmental and public health issues are also fully described. About the series: The series is based on a highly acclaimed set of best selling textbooks. This international version is comprised by six textbooks giving a state-of-the-art presentation of the science and technology of biological wastewater treatment. Other titles in the series are: Volume 1: Waste Stabilisation Ponds; Volume 2: Basic Principles of Wastewater Treatment; Volume 3: Waste Stabilization Ponds; Volume 4: Anaerobic Reactors; Volume 5: Activated Sludge and Aerobic Biofilm Reactors
The annual cost of medical care in the U niled States is rapidly approaching a trillion dollars. Without doubt, much of the rise in costs is due to our health industry's concentration on high technology remediation and risk avoidance measures. From recent public discussions it is becoming in creasingly evident that to contain the costs and at the same time extend the benefits of health care without national bankruptcy will necessitate much greater attention to preventative medicine. The total cost of waste disposal by our health industry is well over a billion dollars. It is rising rapidly as we increasingly rely on high technol ogy remediation measures. Here, too, in the opinion of the authors of this work, it would be prudent to give much greater attention to preventative approaches. Incineration technology has largely been developed for disposing mu nicipal solid waste (MSW) and hazardous waste (HW). As a result of the multibillion dollar funding for the Resource Conservation and Recovery Act (RCRA), most experts believe that pollution control is the key to minimizing toxic emissions from incinerators. This view is now beginning to take hold in medical waste (MW) incineration as well. However, the authors contributing to this book have concluded that precombustion measures can be most effective in reducing the toxic products of medical waste incineration.