Verfügbarkeit: Techniques for predicting metal mining influenced water /

Techniques for predicting metal mining influenced water /:

Techniques for Predicting Metal Mining Influenced Water is a must-read for planners, regulators, consultants, land managers, researchers, students, stakeholders, and others concerned about mining influenced water. Identifying potential mine wastes and their characteristics, and predicting their drai...

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Bibliographische Detailangaben
Weitere Verfasser:	Williams, R. David (Roderick David), 1949-, Diehl, Sharon F.
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Englewood, Colorado : Society for Mining, Metallurgy & Exploration, 2014.
Schriftenreihe:	Management technologies for metal mining influenced water ; volume 5.
Schlagworte:	Mine drainage > Measurement. Acid mine drainage > Environmental aspects. Water > Pollution > Measurement. Tailings (Metallurgy) > Environmental aspects. Exhaure acide > Aspect de l'environnement. Résidus (Minéralurgie) > Aspect de l'environnement. TECHNOLOGY & ENGINEERING > Environmental > General. Acid mine drainage > Environmental aspects Tailings (Metallurgy) > Environmental aspects Water > Pollution > Measurement
Online-Zugang:	Volltext
Zusammenfassung:	Techniques for Predicting Metal Mining Influenced Water is a must-read for planners, regulators, consultants, land managers, researchers, students, stakeholders, and others concerned about mining influenced water. Identifying potential mine wastes and their characteristics, and predicting their drainage quality are critical aspects of mine site design, operations, and closure planning. Failure to effectively conduct these evaluations for a mine site can result in environmental compliance issues that may create long-term financial liabilities. The fifth in a series of six handbooks on tech.
Beschreibung:	1 online resource
Bibliographie:	Includes bibliographical references and index.
ISBN:	9780873353977 0873353978 9781680153811 1680153811

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520			\|a Techniques for Predicting Metal Mining Influenced Water is a must-read for planners, regulators, consultants, land managers, researchers, students, stakeholders, and others concerned about mining influenced water. Identifying potential mine wastes and their characteristics, and predicting their drainage quality are critical aspects of mine site design, operations, and closure planning. Failure to effectively conduct these evaluations for a mine site can result in environmental compliance issues that may create long-term financial liabilities. The fifth in a series of six handbooks on tech.
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505	8		\|a APPENDIX L: Possible Duration Framework for Use with Humidity Cells -- Index -- Back Cover.
650		0	\|a Mine drainage \|x Measurement.
650		0	\|a Acid mine drainage \|x Environmental aspects.
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650		0	\|a Tailings (Metallurgy) \|x Environmental aspects.
650		6	\|a Exhaure acide \|x Aspect de l'environnement.
650		6	\|a Résidus (Minéralurgie) \|x Aspect de l'environnement.
650		7	\|a TECHNOLOGY & ENGINEERING \|x Environmental \|x General. \|2 bisacsh
650		7	\|a Acid mine drainage \|x Environmental aspects \|2 fast
650		7	\|a Tailings (Metallurgy) \|x Environmental aspects \|2 fast
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700	1		\|a Williams, R. David \|q (Roderick David), \|d 1949- \|1 https://id.oclc.org/worldcat/entity/E39PCjwDFWgTkyvjtW7TCVDW9P \|0 http://id.loc.gov/authorities/names/n84026639
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contents	Cover -- Title Page -- Copyright -- Contents -- Preface -- CHAPTER 1: Introduction -- Objectives -- Acid Drainage Technology Initiative-Metal Mining Sector -- Acid Rock Drainage Predictive Approach -- Relevance of ARD Source -- Environmental Setting -- Geology -- Mineralogy -- Hydrologic Considerations -- Mine Life Cycle, and Mining and Processing Considerations -- Climate -- CHAPTER 2: Acid Rock Drainage: Sulfide Mineral Geochemistry Affecting Drainage -- Acid Generation -- Acid Neutralization -- Trace Metal Release by Metal Sulfide Oxidation -- Key Solid-Phase Factors Controlling Mineral Oxidation and Dissolution -- Data Needs for Prediction -- CHAPTER 3: Prediction Factors -- Geologic, Lithologic, and Alteration Considerations -- Geo-Environmental Models -- Analytical Techniques for Mineralogical Investigations -- Field Measurements -- Geophysical Investigations -- Hydrogeological and Hydrological Investigations -- CHAPTER 4: Overview of Prediction Methods -- Static Test Methods -- Short-Term Leach Tests -- Field Leach Tests -- Kinetic Test Methods -- Data Management -- CHAPTER 5: Evaluation -- Static Tests -- Short-Term Leach Tests -- Field Leach Tests -- Kinetic Tests -- HC Objective and Criteria Framework -- Column Tests -- Humidity Cell and Column Test Scaling -- CHAPTER 6: Application and Conclusion -- Reporting Predictive Results -- Conclusion -- Bibliography -- APPENDIX A: Sobek Method -- APPENDIX B: Modified Sobek Method -- APPENDIX C: BC (British Columbia) Research Initial Test -- APPENDIX D: Lapakko Method -- APPENDIX E: Siderite Correction -- APPENDIX F: Net Carbonate Value -- APPENDIX G: Net Acid Generation Tests -- APPENDIX H: BC Research Confirmation Test -- APPENDIX I: Humidity Cell Procedures -- APPENDIX J: Proposed Adaptive Management Plan Outline -- APPENDIX K: Humidity Cell Test Duration and Testing Background. APPENDIX L: Possible Duration Framework for Use with Humidity Cells -- Index -- Back Cover.
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series	Management technologies for metal mining influenced water ;
series2	Management technologies for metal mining influenced water ;
spelling	Techniques for predicting metal mining influenced water / edited by R. David Williams and Sharon F. Diehl. Englewood, Colorado : Society for Mining, Metallurgy & Exploration, 2014. 1 online resource text txt rdacontent computer c rdamedia online resource cr rdacarrier Management technologies for metal mining influenced water ; volume 5 Includes bibliographical references and index. Print version record. Techniques for Predicting Metal Mining Influenced Water is a must-read for planners, regulators, consultants, land managers, researchers, students, stakeholders, and others concerned about mining influenced water. Identifying potential mine wastes and their characteristics, and predicting their drainage quality are critical aspects of mine site design, operations, and closure planning. Failure to effectively conduct these evaluations for a mine site can result in environmental compliance issues that may create long-term financial liabilities. The fifth in a series of six handbooks on tech. English. Cover -- Title Page -- Copyright -- Contents -- Preface -- CHAPTER 1: Introduction -- Objectives -- Acid Drainage Technology Initiative-Metal Mining Sector -- Acid Rock Drainage Predictive Approach -- Relevance of ARD Source -- Environmental Setting -- Geology -- Mineralogy -- Hydrologic Considerations -- Mine Life Cycle, and Mining and Processing Considerations -- Climate -- CHAPTER 2: Acid Rock Drainage: Sulfide Mineral Geochemistry Affecting Drainage -- Acid Generation -- Acid Neutralization -- Trace Metal Release by Metal Sulfide Oxidation -- Key Solid-Phase Factors Controlling Mineral Oxidation and Dissolution -- Data Needs for Prediction -- CHAPTER 3: Prediction Factors -- Geologic, Lithologic, and Alteration Considerations -- Geo-Environmental Models -- Analytical Techniques for Mineralogical Investigations -- Field Measurements -- Geophysical Investigations -- Hydrogeological and Hydrological Investigations -- CHAPTER 4: Overview of Prediction Methods -- Static Test Methods -- Short-Term Leach Tests -- Field Leach Tests -- Kinetic Test Methods -- Data Management -- CHAPTER 5: Evaluation -- Static Tests -- Short-Term Leach Tests -- Field Leach Tests -- Kinetic Tests -- HC Objective and Criteria Framework -- Column Tests -- Humidity Cell and Column Test Scaling -- CHAPTER 6: Application and Conclusion -- Reporting Predictive Results -- Conclusion -- Bibliography -- APPENDIX A: Sobek Method -- APPENDIX B: Modified Sobek Method -- APPENDIX C: BC (British Columbia) Research Initial Test -- APPENDIX D: Lapakko Method -- APPENDIX E: Siderite Correction -- APPENDIX F: Net Carbonate Value -- APPENDIX G: Net Acid Generation Tests -- APPENDIX H: BC Research Confirmation Test -- APPENDIX I: Humidity Cell Procedures -- APPENDIX J: Proposed Adaptive Management Plan Outline -- APPENDIX K: Humidity Cell Test Duration and Testing Background. APPENDIX L: Possible Duration Framework for Use with Humidity Cells -- Index -- Back Cover. Mine drainage Measurement. Acid mine drainage Environmental aspects. Water Pollution Measurement. http://id.loc.gov/authorities/subjects/sh85145471 Tailings (Metallurgy) Environmental aspects. Exhaure acide Aspect de l'environnement. Résidus (Minéralurgie) Aspect de l'environnement. TECHNOLOGY & ENGINEERING Environmental General. bisacsh Acid mine drainage Environmental aspects fast Tailings (Metallurgy) Environmental aspects fast Water Pollution Measurement fast Williams, R. David (Roderick David), 1949- https://id.oclc.org/worldcat/entity/E39PCjwDFWgTkyvjtW7TCVDW9P http://id.loc.gov/authorities/names/n84026639 Diehl, Sharon F. has work: Techniques for predicting metal mining influenced water (Text) https://id.oclc.org/worldcat/entity/E39PCGXxcBHgKg3T7hXRTCmVQ3 https://id.oclc.org/worldcat/ontology/hasWork Print version: Techniques for predicting metal mining influenced water 9780873353540 (DLC) 2014000421 (OCoLC)872561543 Management technologies for metal mining influenced water ; volume 5. http://id.loc.gov/authorities/names/no2008045570 FWS01 ZDB-4-EBA FWS_PDA_EBA https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=721597 Volltext
spellingShingle	Techniques for predicting metal mining influenced water / Management technologies for metal mining influenced water ; Cover -- Title Page -- Copyright -- Contents -- Preface -- CHAPTER 1: Introduction -- Objectives -- Acid Drainage Technology Initiative-Metal Mining Sector -- Acid Rock Drainage Predictive Approach -- Relevance of ARD Source -- Environmental Setting -- Geology -- Mineralogy -- Hydrologic Considerations -- Mine Life Cycle, and Mining and Processing Considerations -- Climate -- CHAPTER 2: Acid Rock Drainage: Sulfide Mineral Geochemistry Affecting Drainage -- Acid Generation -- Acid Neutralization -- Trace Metal Release by Metal Sulfide Oxidation -- Key Solid-Phase Factors Controlling Mineral Oxidation and Dissolution -- Data Needs for Prediction -- CHAPTER 3: Prediction Factors -- Geologic, Lithologic, and Alteration Considerations -- Geo-Environmental Models -- Analytical Techniques for Mineralogical Investigations -- Field Measurements -- Geophysical Investigations -- Hydrogeological and Hydrological Investigations -- CHAPTER 4: Overview of Prediction Methods -- Static Test Methods -- Short-Term Leach Tests -- Field Leach Tests -- Kinetic Test Methods -- Data Management -- CHAPTER 5: Evaluation -- Static Tests -- Short-Term Leach Tests -- Field Leach Tests -- Kinetic Tests -- HC Objective and Criteria Framework -- Column Tests -- Humidity Cell and Column Test Scaling -- CHAPTER 6: Application and Conclusion -- Reporting Predictive Results -- Conclusion -- Bibliography -- APPENDIX A: Sobek Method -- APPENDIX B: Modified Sobek Method -- APPENDIX C: BC (British Columbia) Research Initial Test -- APPENDIX D: Lapakko Method -- APPENDIX E: Siderite Correction -- APPENDIX F: Net Carbonate Value -- APPENDIX G: Net Acid Generation Tests -- APPENDIX H: BC Research Confirmation Test -- APPENDIX I: Humidity Cell Procedures -- APPENDIX J: Proposed Adaptive Management Plan Outline -- APPENDIX K: Humidity Cell Test Duration and Testing Background. APPENDIX L: Possible Duration Framework for Use with Humidity Cells -- Index -- Back Cover. Mine drainage Measurement. Acid mine drainage Environmental aspects. Water Pollution Measurement. http://id.loc.gov/authorities/subjects/sh85145471 Tailings (Metallurgy) Environmental aspects. Exhaure acide Aspect de l'environnement. Résidus (Minéralurgie) Aspect de l'environnement. TECHNOLOGY & ENGINEERING Environmental General. bisacsh Acid mine drainage Environmental aspects fast Tailings (Metallurgy) Environmental aspects fast Water Pollution Measurement fast
subject_GND	http://id.loc.gov/authorities/subjects/sh85145471
title	Techniques for predicting metal mining influenced water /
title_auth	Techniques for predicting metal mining influenced water /
title_exact_search	Techniques for predicting metal mining influenced water /
title_full	Techniques for predicting metal mining influenced water / edited by R. David Williams and Sharon F. Diehl.
title_fullStr	Techniques for predicting metal mining influenced water / edited by R. David Williams and Sharon F. Diehl.
title_full_unstemmed	Techniques for predicting metal mining influenced water / edited by R. David Williams and Sharon F. Diehl.
title_short	Techniques for predicting metal mining influenced water /
title_sort	techniques for predicting metal mining influenced water
topic	Mine drainage Measurement. Acid mine drainage Environmental aspects. Water Pollution Measurement. http://id.loc.gov/authorities/subjects/sh85145471 Tailings (Metallurgy) Environmental aspects. Exhaure acide Aspect de l'environnement. Résidus (Minéralurgie) Aspect de l'environnement. TECHNOLOGY & ENGINEERING Environmental General. bisacsh Acid mine drainage Environmental aspects fast Tailings (Metallurgy) Environmental aspects fast Water Pollution Measurement fast
topic_facet	Mine drainage Measurement. Acid mine drainage Environmental aspects. Water Pollution Measurement. Tailings (Metallurgy) Environmental aspects. Exhaure acide Aspect de l'environnement. Résidus (Minéralurgie) Aspect de l'environnement. TECHNOLOGY & ENGINEERING Environmental General. Acid mine drainage Environmental aspects Tailings (Metallurgy) Environmental aspects Water Pollution Measurement
url	https://search.ebscohost.com/login.aspx?direct=true&scope=site&db=nlebk&AN=721597
work_keys_str_mv	AT williamsrdavid techniquesforpredictingmetalmininginfluencedwater AT diehlsharonf techniquesforpredictingmetalmininginfluencedwater

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