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Burning coal in electric utility plants produces, in addition to power, residues that contain constituents which may be harmful to the environment. The management of large volumes of coal combustion residues (CCRs) is a challenge for utilities, because they must either place the CCRs in landfills, surface impoundments, or mines, or find alternative uses for the material. This study focuses on the placement of CCRs in active and abandoned coal mines. The committee believes that placement of CCRs in mines as part of the reclamation process may be a viable option for the disposal of this material as long as the placement is properly planned and carried out in a manner that avoids significant adverse environmental and health impacts. This report discusses a variety of steps that are involved in planning and managing the use of CCRs as minefills, including an integrated process of CCR characterization and site characterization, management and engineering design of placement activities, and design and implementation of monitoring to reduce the risk of contamination moving from the mine site to the ambient environment. Enforceable federal standards are needed for the disposal of CCRs in minefills to ensure that states have adequate, explicit authority and that they implement minimum safeguards.
The management of large volumes of coal combustion residues (CCRs) is a challenge for utilities, because they must either place it in landfills, surface impoundments, or mines, or find alternative uses. This study focuses on the placement of CCRs in coal mines. It discusses a variety of steps involved in planning and managing the use of CCRs.
Coal-fired power plants account for almost half of America¿s electric power, resulting in 136 millions tons of CCW. CCW contains a range of heavy metals such as arsenic, beryllium, chromium, lead, and mercury. The primary concern regarding CCW relates to the potential for hazardous constituents to leach into surface or groundwater, and hence contaminate drinking water, surface water, or living organisms. Contents of this report: (1) Disposal and Use Issues; (2) The Nature of Coal Combustion Waste; (3) Potential Risks Associated with CCW Management; (4) Regulatory History and Current Rulemaking; (5) Landfill and Surface Impoundment Disposal; Mine Disposal; ¿Beneficial Use¿. Charts and tables. This is a print on demand report.
On October 11, 2000, a breakthrough of Martin County Coal Corporation's coal waste impoundment released 250 million gallons of slurry in near Inez, Kentucky. The 72-acre surface impoundment for coal processing waste materials broke through into a nearby underground coal mine. Although the spill caused no loss of human life, environmental damage was significant, and local water supplies were disrupted. This incident prompted Congress to request the National Research Council to examine ways to reduce the potential for similar accidents in the future. This book covers the engineering practices and standards for coal waste impoundments and ways to evaluate, improve, and monitor them; the accuracy of mine maps and ways to improve surveying and mapping of mines; and alternative technologies for coal slurry disposal and utilization. The book contains advice for multiple audiences, including the Mine Safety and Health Administration, the Office of Surface Mining, and other federal agencies; state and local policymakers and regulators; the coal industry and its consultants; and scientists and engineers.
This collection of proceedings from the 6th International Symposium provide a forum for the presentation, discussion and debate of state-of-the-art and emerging technology in the field of environmental management.
Surface mining for coal in Appalachia has generated opposition because rock and dirt from mountaintops is removed and placed in valleys and streams. The Office of Surface Mining Reclamation and Enforcement (OSM) and states regulate these mines. Mine operators must provide financial assurances to allow mines to be reclaimed. This report examined: (1) the approaches OSM and the states have taken to obtain financial assurances for surface coal mines with valley fills; (2) fed. and state agencies' monitoring of these mines after reclamation and mitigation are complete; and (3) the fed. laws agencies may use, and have used, to address latent environ. problems. The report gathered info. from agencies in KY, TN, VA, and WV. Illus. This is a print on demand report.
Offering the ability to process large or complex datasets, machine learning (ML) holds huge potential to reshape the whole status for solid ash management and recycling. Machine Learning for Solid Ash Management and Recycling is, as far as the author knows, the first published book about ML in solid ash management and recycling. This book highlights fundamental knowledge and recent advances in this topic, offering readers new insight into how these tools can be utilized to enhance their own work. The reference begins with fundamentals in solid ash, covering the status of solid ash generation and management. The book moves on to foundational knowledge on ML in solid ash management, which provides a brief introduction of ML for solid ash applications. The reference then goes on to discuss ML approaches currently used to address problems in solid ash management and recycling, including solid ash generation, clustering analysis, origin identification, reactivity prediction, leaching potential modelling and metal recovery evaluation, etc. Finally, potential future trends and challenges in the field are discussed. - Helps readers increase their existing knowledge on data mining and ML - Teaches how to apply ML techniques that work best in solid ash management and recycling through providing illustrative examples and complex practice solutions - Provides an accessible introduction to the current state and future possibilities for ML in solid ash management and recycling