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This updated edition examines the latest regulatory and judicial developments involving the Resource Conservation and Recovery Act (RCRA) and provides a clear, practical explanation of its requirements. Using this book, you will learn how to manage the "field side" of RCRA compliance, including identifying hazardous waste, transporting hazardous materials under EPA and DOT regulations, and disposing of solid wastes. You will also learn how to manage the "paperwork side" of RCRA compliance, working with such documents as RCRA permits, manifests and land ban documents, and underground-storage-tank notices. New issues addressed in this edition include the new provisions regarding recycling, the corrective action program, and the regulation of combustion units; changes in enforcement policy, civil and criminal liability, and citizen suits; and new regulations regarding land disposal, underground storage tanks, facilities siting, and municipal solid waste management.
The Department of Toxic Substances Control (DTSC) of the State of California Environmental Protection Agency is in the process of complying with the Regulatory Structure Update. The Regulatory Structure Update is a comprehensive review and refocusing of California's system for identifying and regulating management of hazardous wastes. As part of this effort, the DTSC proposes to change its current waste classification system that categorizes wastes as hazardous or nonhazardous based on their toxicity. Under the proposed system there would be two risk-based thresholds rather than the single toxicity threshold currently used to distinguish between the wastes. Wastes that contain specific chemicals at concentrations that exceed the upper threshold will be designated as hazardous; those below the lower threshold will be nonhazardous; and those with chemical concentrations between the two thresholds will be "special" wastes and subject to variances for management and disposal. The proposed DTSC system combines toxicity information with short or long-term exposure information to determine the risks associated with the chemicals. Under section 57004 of the California Health and Safety Code, the scientific basis of the proposed waste classification system is subject to external scientific peer review by the National Academy of Sciences, the University of California, or other similar institution of higher learning or group of scientists. This report addresses that regulatory requirement.
Waste Reduction for Pollution Prevention discusses the philosophy, regulatory background, and technical options dealing with waste minimization. The book explains waste reduction as a form of pollution prevention to minimize the amount of hazardous materials dumped into the environment. The 1984 Resource Conservation and Recovery Act amendments restrict the amount of waste that can be disposed on land. The approach of the United States is to address pollution after the problem has been created, where attention and resources of industry shift to regulatory compliance. The text notes that waste reduction is the key to preventing future hazardous waste problems. Examples of techniques of waste minimization are good housekeeping, changes in technology and procedures, raw material substitution, recycling, and waste exchanges. The book discusses the biological, thermal, and other emerging thermal processes for industrial waste management, as well as municipal solid-waste recycling, and the organization of a recycling program. The text can benefit economists, environmentalists, urban developers, and policy makers involved in waste management, community preservation and development.
A practical guide for the identification and management of a range of hazardous wastes, Waste Management Practices: Municipal, Hazardous, and Industrial integrates technical information including chemistry, microbiology, and engineering, with current regulations. Emphasizing basic environmental science and related technical fields, the book is an i
To achieve environmental sustainability in industrial plants, resource conservation activities such as material recovery have begun incorporating process integration techniques for reusing and recycling water, utility gases, solvents, and solid waste. Process Integration for Resource Conservation presents state-of-the-art, cost-effective techniques
Sustainable Resource Recovery and Zero Waste Approaches covers waste reduction, biological, thermal and recycling methods of waste recovery, and their conversion into a variety of products. In addition, the social, economic and environmental aspects are also explored, making this a useful textbook for environmental courses and a reference book for both universities and companies. - Provides a novel approach on how to achieve zero wastes in a society - Shows the roadmap on achieving Sustainable Development Goals - Considers critical aspects of municipal waste management - Covers recent developments in waste biorefinery, thermal processes, anaerobic digestion, material recycling and landfill mining
A comprehensive, single-source reference of current issues in solid waste management designed as an aid in decision-making and assessment of future trends. Covers public perceptions, legislation, regulation, planning and financing, and technologies and operation. Reviews the evolution of waste management since the passage of the Resource Conservation and Recovery Act of 1976, amended in 1978, 1980 and 1984. Examines common and divergent public and private concerns, including an in-depth review of public perceptions and their effect on planning and implementation. Also includes a discussion of the inadequacies of most waste quantity and composition estimates, with techniques for adequate evaluation. Looks at the misunderstanding and controversy over source separation and issues in municipal resource recovery from the viewpoint of the private scrap process industry. Also includes an unprecedented examination of the problem of bulky waste logistics and its effect on current disposal practice, and case histories and the current status of energy recovery from industrial waste. With over 500 tables, graphs, and illustrations.