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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 advances in materials handling, waste processing, refractory and materials engineering, combustion technology, and energy recovery to reduce and control toxins and pollutants in the environment. It includes a disk containing spreadsheets for practical analyses of waste characteristics and combustion systems.
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.
Introduction to Hazardous Waste Incineration, Second Edition The control of hazardous wastes is one of today's most critical environmental issues. Increasing numbers of engineers, technicians, and maintenance personnel are being confronted with problems in this important area. Incineration has become an available and vital option to meet the new challenge of containing hazardous wastes. Introduction to Hazardous Waste Incineration, Second Edition provides a reference work that examines the basic concepts, principles, equipment, and applications pertaining to hazardous waste incineration. Uniquely serving as both an essential guidebook for practicing engineers and a text for engineering students, this new edition contains updated information in the area of standards and regulations, equipment, materials handling equipment, instrumentation, control performance testing, final permit, and facility design. The authors' aim is to offer the reader the fundamentals of incineration with appropriate practical application to the incineration of wastes, in addition to providing an introduction to the specialized literature in this and related areas. Complete with illustrative examples, this informative Second Edition highlights: * Recent history of standards and regulations, including the recently enacted MACT Standards for hazardous waste combustion * Incineration principles, including stoichiometric calculations, and thermochemical considerations * Equipment that may be found in a waste incineration facility (i.e., incinerator, waste heat boiler, quench systems, and air pollution control equipment) * Design principles and their application to a hazardous waste incineration facility * Practice problems at the end of each technical chapter Introduction to Hazardous Waste Incineration, Second Edition offers chemical and environmental engineers working in the hazardous waste control area, as well as technicians and maintenance professionals, the necessary literature to cope with some of the complex problems encountered in waste incineration today.
Combustion technology has traditionally been dominated by air/fuel combustion. However, two developments have increased the significance of oxygen-enhanced combustion—new technologies that produce oxygen less expensively and the increased importance of environmental regulations. Advantages of oxygen-enhanced combustion include less pollutant emissions as well as increased energy efficiency and productivity. Oxygen-Enhanced Combustion, Second Edition compiles information about using oxygen to enhance industrial heating and melting processes. It integrates fundamental principles, applications, and equipment design in one volume, making it a unique resource for specialists implementing the use of oxygen in combustion systems. This second edition of the bestselling book has more than doubled in size. Extensively updated and expanded, it covers significant advances in the technology that have occurred since the publication of the first edition. What’s New in This Edition Expanded from 11 chapters to 30, with most of the existing chapters revised A broader view of oxygen-enhanced combustion, with more than 50 contributors from over 20 organizations around the world More coverage of fundamentals, including fluid flow, heat transfer, noise, flame impingement, CFD modeling, soot formation, burner design, and burner testing New chapters on applications such as flameless combustion, steel reheating, iron production, cement production, power generation, fluidized bed combustion, chemicals and petrochemicals, and diesel engines This book offers a unified, up-to-date look at important commercialized uses of oxygen-enhanced combustion in a wide range of industries. It brings together the latest knowledge to assist those researching, engineering, and implementing combustion in power plants, engines, and other applications.
Fuel Property Estimation and Combustion Process Characterization is a thorough tool book, which provides readers with the most up-to-date, valuable methodologies to efficiently and cost-effectively attain useful properties of all types of fuels and achieve combustion process characterizations for more efficient design and better operation. Through extensive experience in fuels and combustion, Kiang has developed equations and methodologies that can readily obtain reasonable properties for all types of fuels (including wastes and biomass), which enable him to provide guidance for designers and operators in the combustion field, in order to ensure the design, operation, and diagnostics of all types of combustion systems are of the highest quality and run at optimum efficiency. Written for professionals and researchers in the renewable energy, combustion, chemical, and mechanical engineering fields, the information in this book will equip readers with detailed guidance on how to reliably obtain properties of fuels quickly for the design, operation and diagnostics of combustion systems to achieve highly efficient combustion processes. - Presents models for quick estimation of fuel properties without going through elaborate, costly and time consuming sampling and laboratory testing - Offers methodologies to determine combustion process characteristics for designing and deploying combustion systems - Examines the fundamentals of combustion applied to energy systems, including thermodynamics of traditional and alternative fuels combustion - Presents a fuel property database for over 1400 fuels - Includes descriptive application of big data technology, using dual properties analysis as an example - Provides specific technical solutions for combustion, fuels and waste processing
Fundamentals of Combustion Processes is designed as a textbook for an upper-division undergraduate and graduate level combustion course in mechanical engineering. The authors focus on the fundamental theory of combustion and provide a simplified discussion of basic combustion parameters and processes such as thermodynamics, chemical kinetics, ignition, diffusion and pre-mixed flames. The text includes exploration of applications, example exercises, suggested homework problems and videos of laboratory demonstrations
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.
This is a comprehensive handbook on the relationship of air pollution to incineration. Incineration is becoming the predominant method of dealing with many of our waste products and its most significant envi ronmental impact is on the air. This book includes information on emissions as well as on equipment design. Two chapters deal with the regulations governing incinerator emissions as well as the thermal destruction of hazardous wastes. Four chapters describe the nature of the emissions generated by the incin eration process. These particulate, gaseous, and odor emissions, are hazardous as well as deleterious to public well-being and aesthetics. Also included is a complete and timely discussion of dioxin generation and discharges. Three chapters describe the incineration equipment in general use today and methods of calculating gas flows and air discharges from these systems. Five chapters discuss the types of gas cleaning equipment available with sizing information and expected efficiencies. The nature of the gas cleaning process is discussed in detail. Criteria for selection of the opti mum system for a particular application is also included. The dispersion of an atmospheric discharge to the surrounding areas and/or communities is a vital concern in assessing the nature of that discharge and its impact, or potential hazards. A chapter is devoted to a relative simple method of estimating atmospheric dispersion.