Author:
Publisher:
ISBN:
Category : Abandoned mine lands reclamation
Languages : en
Pages : 462
Book Description
Coal Ash Beneficial Use in Mine Reclamation and Mine Drainage Remediation in Pennsylvania
Author:
Publisher:
ISBN:
Category : Abandoned mine lands reclamation
Languages : en
Pages : 462
Book Description
Publisher:
ISBN:
Category : Abandoned mine lands reclamation
Languages : en
Pages : 462
Book Description
Coal Fly Ash Beneficiation
Author: Segun Akinyemi
Publisher: BoD – Books on Demand
ISBN: 9535137522
Category : Technology & Engineering
Languages : en
Pages : 210
Book Description
The present book deals with various, very significant topics of coal fly ash beneficiation, such as treatment of acid mine drainage with coal fly ash, toxic metal adsorption using coal fly ash, recovery of metals from coal fly ash and phytoreclamation of abandoned acid mine drainage site after treatment with coal fly ash, the status of research in coal fly ash utilization and applications and some other related topics in this growing and increasingly important research area. Overall, coal fly ash beneficiation has come to assume an important role in most areas of waste management research today. Continued growth and emphasis on scientific research is expected in all areas of waste management and conversion of waste to wealth technologies.
Publisher: BoD – Books on Demand
ISBN: 9535137522
Category : Technology & Engineering
Languages : en
Pages : 210
Book Description
The present book deals with various, very significant topics of coal fly ash beneficiation, such as treatment of acid mine drainage with coal fly ash, toxic metal adsorption using coal fly ash, recovery of metals from coal fly ash and phytoreclamation of abandoned acid mine drainage site after treatment with coal fly ash, the status of research in coal fly ash utilization and applications and some other related topics in this growing and increasingly important research area. Overall, coal fly ash beneficiation has come to assume an important role in most areas of waste management research today. Continued growth and emphasis on scientific research is expected in all areas of waste management and conversion of waste to wealth technologies.
Managing Coal Combustion Residues in Mines
Author: National Research Council
Publisher: National Academies Press
ISBN: 0309100496
Category : Science
Languages : en
Pages : 273
Book Description
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.
Publisher: National Academies Press
ISBN: 0309100496
Category : Science
Languages : en
Pages : 273
Book Description
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.
Enhancing the Beneficial Use of Fly Ash in Concrete and in Mine Reclamation
Author: Mina Mohebbi
Publisher:
ISBN:
Category :
Languages : en
Pages :
Book Description
Combustion of coal to generate electricity produces huge volume of coal combustion products (CCPs) annually in the United States. Due to their promising physical and chemical characteristics, these byproducts can be beneficially used as supplementary cementitious materials (SCM) in portland cement concrete, mining applications, structural fills, and soil and waste stabilization. However, the efficiency and environmental impacts of such beneficial uses need to be further evaluated and enhanced. The unburned carbon (UC) content of fly ash impacts the performance (e.g., air entrainment and rheology) of concrete mixtures. The conventional loss on ignition (LOI) test to measure the UC may be overestimating as the weight change upon igniting fly ash could be the result of other physical and chemical reactions (e.g., calcination of carbonates, removal of bound water, and iron and sulfur oxidation) in addition to organic carbon burning. Moreover, reclamation of mine sites using coal ash has been shown to potentially alleviate the negative effects of mining activities such as neutralizing the acid mine drainage. However, during coal combustion process, trace elements are concentrated onto fly ash particles, and the long-term leaching of harmful elements from coal ash to subsurface aquifers is an environmental concern. This research studies focuses on evaluating and enhancing the beneficial uses of fly ash (as the predominant coal combustion byproduct) in two areas: 1- in portland cement concrete through measuring the UC content, and 2- in mine site reclamation through evaluating the leaching behavior of fly ash deposits to water resources in short and long terms. In the first part of this research study, a two-atmosphere thermogravimetric analysis (2A-TGA) coupled with mass spectrometry was performed to evaluate the chemical reactions that occur upon heating of fly ash and to measure the true UC content. 2A-TGA was performed under two distinct atmospheres: (i) in non-oxidizing helium gas, to measure weight loss due to decomposition of carbonates and loss of bound water, and (ii) in oxidizing air, to measure weight loss due to conversion of UC to CO2. The results were also compared with the total carbon (TC) measured using infrared spectroscopy. It was found that there is no one-to-one relationship between the LOI and the TC or UC contents of fly ash. LOI overestimated TC by up to 2.5 and overestimated UC by up to 6.4. Based on the results of this study, a practical alternative to 2A-TGA could be to heat fly ash in a non-oxidizing atmosphere (e.g., vacuum, He- or N2-purged furnace) up to 750 oC, followed by a conventional LOI test.In the second part of this study, leaching behavior of fly ash deposits was evaluated through (i) defining the host phases for environmentally important elements and (ii) developing a reactive transport model to predict the long-term leaching behavior. Determining the host phases was achieved through micro-characterizing the coal ash and flow-through column leaching tests. It was found that amorphous aluminosilicate is the main host phase for Si, Al, Fe, and, Mg. Alkalis such as Na, K, and trace elements including As and Se are also distributed in the bulk Al-Si glass in low concentrations. The Initially high concentrations of Ca and S in the leachate were mainly due to the dissolution of gypsum. Surface associated salts (e.g., sulfate and borate salts) dissolve Na, K, S, and B ions at early stages of leaching. Iron was found both as ferromagnetic particles containing magnetite and hematite, and also included in the amorphous phase in lower amounts. The host phases were then considered as input data for a quantitative reactive transport 1D model using CrunchFlow code. The calibrated model was used to predict the concentration of major elements (Ca, S, Si, Al, Fe, Na, K, Mg), and trace elements (As, Mo, Se, B) along 10 years of leaching. The leachate composition at early ages of leaching might exceed the environmental limits for S, B, Mo, and Al. However, in long-term the overall composition meets the leaching limits except for aluminum content. The porosity of compacted fly ash starts to increase from the top layers, and in long-term (e.g., 30 years of weathering) it reached from 28% to 45%, which can significantly affect the stability and transport properties.
Publisher:
ISBN:
Category :
Languages : en
Pages :
Book Description
Combustion of coal to generate electricity produces huge volume of coal combustion products (CCPs) annually in the United States. Due to their promising physical and chemical characteristics, these byproducts can be beneficially used as supplementary cementitious materials (SCM) in portland cement concrete, mining applications, structural fills, and soil and waste stabilization. However, the efficiency and environmental impacts of such beneficial uses need to be further evaluated and enhanced. The unburned carbon (UC) content of fly ash impacts the performance (e.g., air entrainment and rheology) of concrete mixtures. The conventional loss on ignition (LOI) test to measure the UC may be overestimating as the weight change upon igniting fly ash could be the result of other physical and chemical reactions (e.g., calcination of carbonates, removal of bound water, and iron and sulfur oxidation) in addition to organic carbon burning. Moreover, reclamation of mine sites using coal ash has been shown to potentially alleviate the negative effects of mining activities such as neutralizing the acid mine drainage. However, during coal combustion process, trace elements are concentrated onto fly ash particles, and the long-term leaching of harmful elements from coal ash to subsurface aquifers is an environmental concern. This research studies focuses on evaluating and enhancing the beneficial uses of fly ash (as the predominant coal combustion byproduct) in two areas: 1- in portland cement concrete through measuring the UC content, and 2- in mine site reclamation through evaluating the leaching behavior of fly ash deposits to water resources in short and long terms. In the first part of this research study, a two-atmosphere thermogravimetric analysis (2A-TGA) coupled with mass spectrometry was performed to evaluate the chemical reactions that occur upon heating of fly ash and to measure the true UC content. 2A-TGA was performed under two distinct atmospheres: (i) in non-oxidizing helium gas, to measure weight loss due to decomposition of carbonates and loss of bound water, and (ii) in oxidizing air, to measure weight loss due to conversion of UC to CO2. The results were also compared with the total carbon (TC) measured using infrared spectroscopy. It was found that there is no one-to-one relationship between the LOI and the TC or UC contents of fly ash. LOI overestimated TC by up to 2.5 and overestimated UC by up to 6.4. Based on the results of this study, a practical alternative to 2A-TGA could be to heat fly ash in a non-oxidizing atmosphere (e.g., vacuum, He- or N2-purged furnace) up to 750 oC, followed by a conventional LOI test.In the second part of this study, leaching behavior of fly ash deposits was evaluated through (i) defining the host phases for environmentally important elements and (ii) developing a reactive transport model to predict the long-term leaching behavior. Determining the host phases was achieved through micro-characterizing the coal ash and flow-through column leaching tests. It was found that amorphous aluminosilicate is the main host phase for Si, Al, Fe, and, Mg. Alkalis such as Na, K, and trace elements including As and Se are also distributed in the bulk Al-Si glass in low concentrations. The Initially high concentrations of Ca and S in the leachate were mainly due to the dissolution of gypsum. Surface associated salts (e.g., sulfate and borate salts) dissolve Na, K, S, and B ions at early stages of leaching. Iron was found both as ferromagnetic particles containing magnetite and hematite, and also included in the amorphous phase in lower amounts. The host phases were then considered as input data for a quantitative reactive transport 1D model using CrunchFlow code. The calibrated model was used to predict the concentration of major elements (Ca, S, Si, Al, Fe, Na, K, Mg), and trace elements (As, Mo, Se, B) along 10 years of leaching. The leachate composition at early ages of leaching might exceed the environmental limits for S, B, Mo, and Al. However, in long-term the overall composition meets the leaching limits except for aluminum content. The porosity of compacted fly ash starts to increase from the top layers, and in long-term (e.g., 30 years of weathering) it reached from 28% to 45%, which can significantly affect the stability and transport properties.
Norris, Garcia, and Pizarchik Nominations
Author: United States. Congress. Senate. Committee on Energy and Natural Resources
Publisher:
ISBN:
Category : Government publications
Languages : en
Pages : 68
Book Description
Publisher:
ISBN:
Category : Government publications
Languages : en
Pages : 68
Book Description
Mine Water Treatment – Active and Passive Methods
Author: Christian Wolkersdorfer
Publisher: Springer Nature
ISBN: 3662657708
Category : Science
Languages : en
Pages : 360
Book Description
This book accompanies you on a journey that starts with the basics of mine water treatment and takes you further through correct sampling for planning to active and passive systems. In the respective chapters you will learn the most important techniques about the parameters to be measured (e.g. on-site parameters, flow rate), which methods are available to actively treat your mine water (e.g. high density sludge method, reverse osmosis, ion exchange) and which ones to perform passive treatment (e.g. constructed wetlands, vertical flow reactor, limestone channel). You will also get an insight into the use of mine water. Don’t expect a cookbook – rather, it’s an ingredients and utensils list to help you find the right recipe. For extended help on this, check out the more than 1000 references on all the techniques presented. I wrote this book for hydrogeologists, engineers, graduate students, government officials, miners, geoecologists, chemical engineers – in the broadest sense: you. This book is a translation of an original German edition. The translation was done with the help of artificial intelligence (machine translation by the service DeepL.com). A subsequent human revision and a thorough copy editing and update by the author ensured that the contents are correctly represented.
Publisher: Springer Nature
ISBN: 3662657708
Category : Science
Languages : en
Pages : 360
Book Description
This book accompanies you on a journey that starts with the basics of mine water treatment and takes you further through correct sampling for planning to active and passive systems. In the respective chapters you will learn the most important techniques about the parameters to be measured (e.g. on-site parameters, flow rate), which methods are available to actively treat your mine water (e.g. high density sludge method, reverse osmosis, ion exchange) and which ones to perform passive treatment (e.g. constructed wetlands, vertical flow reactor, limestone channel). You will also get an insight into the use of mine water. Don’t expect a cookbook – rather, it’s an ingredients and utensils list to help you find the right recipe. For extended help on this, check out the more than 1000 references on all the techniques presented. I wrote this book for hydrogeologists, engineers, graduate students, government officials, miners, geoecologists, chemical engineers – in the broadest sense: you. This book is a translation of an original German edition. The translation was done with the help of artificial intelligence (machine translation by the service DeepL.com). A subsequent human revision and a thorough copy editing and update by the author ensured that the contents are correctly represented.
Coal Mine Drainage Prediction and Pollution Prevention in Pennsylvania
Author: Pennsylvania. Bureau of Mining and Reclamation
Publisher:
ISBN:
Category : Acid mine drainage
Languages : en
Pages :
Book Description
Publisher:
ISBN:
Category : Acid mine drainage
Languages : en
Pages :
Book Description
Legal Problems of Coal Mine Reclamation
Author: Everett F. Goldberg
Publisher:
ISBN:
Category : Coal mines and mining
Languages : en
Pages : 262
Book Description
Coal mining produces a variety of environmental problems -- acid drainage, sedimentation, surface subsidence and surface scars. The study reviews the response of legal institutions to those problems in Maryland, Ohio, Pennsylvania and West Virginia. Technological and economic concerns are also taken into account. The study discusses the antecedents of today's Appalachian coal industry and the environmental problems it has created. It examines the way in which the property system allocates rights in coal and coal lands, the efficacy of litigation and present laws and regulations for preventing environmental damage, and constitutional limitations on the ability of states to effectively respond to the problems. A case study of the economics of the Maryland coal industry is also presented. Model legislation giving the states the necessary powers to respond to environmental problems, is proposed.
Publisher:
ISBN:
Category : Coal mines and mining
Languages : en
Pages : 262
Book Description
Coal mining produces a variety of environmental problems -- acid drainage, sedimentation, surface subsidence and surface scars. The study reviews the response of legal institutions to those problems in Maryland, Ohio, Pennsylvania and West Virginia. Technological and economic concerns are also taken into account. The study discusses the antecedents of today's Appalachian coal industry and the environmental problems it has created. It examines the way in which the property system allocates rights in coal and coal lands, the efficacy of litigation and present laws and regulations for preventing environmental damage, and constitutional limitations on the ability of states to effectively respond to the problems. A case study of the economics of the Maryland coal industry is also presented. Model legislation giving the states the necessary powers to respond to environmental problems, is proposed.
Western Greenbrier Co-production Demonstration Project
Author:
Publisher:
ISBN:
Category :
Languages : en
Pages : 374
Book Description
Publisher:
ISBN:
Category :
Languages : en
Pages : 374
Book Description
Drinking Water and Public Health Impacts of Coal Combustion Waste Disposal
Author: United States. Congress. House. Committee on Energy and Commerce. Subcommittee on Energy and Environment
Publisher:
ISBN:
Category : Coal ash
Languages : en
Pages : 192
Book Description
Publisher:
ISBN:
Category : Coal ash
Languages : en
Pages : 192
Book Description