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| Title: | Biomining Technologies Extracting and Recovering Metals from Ores and Wastes / |
|---|---|
| From: |
edited by David Barrie Johnson, Christopher George Bryan, Michael Schlömann, Francisco Figueroa Roberto.
|
| Person: |
Johnson, David Barrie.
Bryan, Christopher George. Schlömann, Michael. Roberto, Francisco Figueroa. editor. |
| Corporate Author: | |
| Other Authors: | , , , |
| Format: | Electronic eBook |
| Language: | English |
| Published: |
Cham :
Springer International Publishing : Imprint: Springer,
2023.
|
| Edition: | 1st ed. 2023. |
| Subjects: | |
| Online Access: | https://doi.org/10.1007/978-3-031-05382-5 |
| Summary: | This book describes emerging and established industrial processes of biomining technologies used for the recovery of metals of economic interest from, e.g. mineral ores, mining and electronic wastes using microbiological technologies. Multiple chapters focus on engineering design and operation of biomining systems. Several industrial case studies from China, Chile, Peru, Russia/Kazakhstan and Finland are included, which emphasises the practical approach of the book. The reader not only learns more about the biology, diversity and ecology of microorganisms involved in biomining processes, but also about microbial biomolecular and cultivation tools used in the biomining industry. Special emphasis is put on emerging biotechnologies enabling the use of biomining for recycling metals from e-wastes, waste streams and process waters. Finally, the future impacts and direction of biomining towards sustainability in a metal-demanding world are also highlighted. The book is aimed at an interdisciplinary audience involving operators and researchers working across disciplines including geology, chemical engineering, microbiology and molecular biology. This is reflected by the content of this book, as well as by its authors, who are all leading practitioners and authorities in their fields. |
| Physical Description: | 1 Online-Ressource (XII, 314 p. 1 illus.) |
| ISBN: | 9783031053825 |
Staff View
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| 505 | 0 | |a Chapter 1: Evolution and current status of mineral bioprocessing technologies -- Chapter 2: Design, Construction and Modelling of Bioheaps -- Chapter 3: Engineering Designs and Challenges of Stirred Tank Systems -- Chapter 4: Bioprocessing of Refractory Gold Ores: The BIOX, MesoTHERM and ASTER Processes -- Chapter 5: Biomining Microorganisms: Diversity and Modus Operandi -- Chapter 6: Biomolecular and Cultivation Tools -- Chapter 7: Microbial ecology of bioheaps, stirred tanks and mine wastes -- Chapter 8: Biomining in China: history and current status -- Chapter 9: Copper Bioleaching Operations in Chile: Towards New Challenges and Developments -- Chapter 10: Heap bioleaching of an enargite-dominant ore body: Minera Yanacocha, Péru -- Chapter 11: Bio-oxidation of gold ores in Russia and Kazakhstan -- Chapter 12: Biomining in Finland: Commercial Application of Heap and Tank Bioleaching Technologies for Nickel Recovery -- Chapter 13: Mineral Bioleaching in Brackish and Saline Environments -- Chapter 14: Metal Recovery from E-wastes -- Chapter 15:Reductive Mineral Bioprocessing -- Chapter 16: Biological Removal and Recovery of Metals from Waste Streams and Process Waters -- Chapter 17: The Future of Biomining: Towards Sustainability in a Metal-demanding World. | |
| 520 | |a This book describes emerging and established industrial processes of biomining technologies used for the recovery of metals of economic interest from, e.g. mineral ores, mining and electronic wastes using microbiological technologies. Multiple chapters focus on engineering design and operation of biomining systems. Several industrial case studies from China, Chile, Peru, Russia/Kazakhstan and Finland are included, which emphasises the practical approach of the book. The reader not only learns more about the biology, diversity and ecology of microorganisms involved in biomining processes, but also about microbial biomolecular and cultivation tools used in the biomining industry. Special emphasis is put on emerging biotechnologies enabling the use of biomining for recycling metals from e-wastes, waste streams and process waters. Finally, the future impacts and direction of biomining towards sustainability in a metal-demanding world are also highlighted. The book is aimed at an interdisciplinary audience involving operators and researchers working across disciplines including geology, chemical engineering, microbiology and molecular biology. This is reflected by the content of this book, as well as by its authors, who are all leading practitioners and authorities in their fields. | ||
| 650 | 0 | |a Industrial microbiology. | |
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| 650 | 2 | 4 | |a Biotechnology. |
| 650 | 2 | 4 | |a Microbial Communities. |
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Record in the Search Index
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| contents | Chapter 1: Evolution and current status of mineral bioprocessing technologies -- Chapter 2: Design, Construction and Modelling of Bioheaps -- Chapter 3: Engineering Designs and Challenges of Stirred Tank Systems -- Chapter 4: Bioprocessing of Refractory Gold Ores: The BIOX, MesoTHERM and ASTER Processes -- Chapter 5: Biomining Microorganisms: Diversity and Modus Operandi -- Chapter 6: Biomolecular and Cultivation Tools -- Chapter 7: Microbial ecology of bioheaps, stirred tanks and mine wastes -- Chapter 8: Biomining in China: history and current status -- Chapter 9: Copper Bioleaching Operations in Chile: Towards New Challenges and Developments -- Chapter 10: Heap bioleaching of an enargite-dominant ore body: Minera Yanacocha, Péru -- Chapter 11: Bio-oxidation of gold ores in Russia and Kazakhstan -- Chapter 12: Biomining in Finland: Commercial Application of Heap and Tank Bioleaching Technologies for Nickel Recovery -- Chapter 13: Mineral Bioleaching in Brackish and Saline Environments -- Chapter 14: Metal Recovery from E-wastes -- Chapter 15:Reductive Mineral Bioprocessing -- Chapter 16: Biological Removal and Recovery of Metals from Waste Streams and Process Waters -- Chapter 17: The Future of Biomining: Towards Sustainability in a Metal-demanding World. |
| dewey-full | 660.62 |
| dewey-hundreds | 600 - Technology (Applied sciences) |
| dewey-ones | 660 - Chemical engineering |
| dewey-raw | 660.62 |
| dewey-search | 660.62 |
| dewey-sort | 3660.62 |
| dewey-tens | 660 - Chemical engineering |
| discipline | Chemie / Pharmazie |
| edition | 1st ed. 2023. |
| format | Electronic eBook |
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| id | ZDB-2-SBL-978-3-031-05382-5 |
| illustrated | Not Illustrated |
| indexdate | 2025-06-23T13:27:54Z |
| institution | BVB |
| isbn | 9783031053825 |
| language | English |
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| physical | 1 Online-Ressource (XII, 314 p. 1 illus.) |
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| publisher | Springer International Publishing : Imprint: Springer, |
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| spelling | Biomining Technologies [electronic resource] : Extracting and Recovering Metals from Ores and Wastes / edited by David Barrie Johnson, Christopher George Bryan, Michael Schlömann, Francisco Figueroa Roberto. 1st ed. 2023. Cham : Springer International Publishing : Imprint: Springer, 2023. 1 Online-Ressource (XII, 314 p. 1 illus.) text txt rdacontent computer c rdamedia online resource cr rdacarrier text file PDF rda Chapter 1: Evolution and current status of mineral bioprocessing technologies -- Chapter 2: Design, Construction and Modelling of Bioheaps -- Chapter 3: Engineering Designs and Challenges of Stirred Tank Systems -- Chapter 4: Bioprocessing of Refractory Gold Ores: The BIOX, MesoTHERM and ASTER Processes -- Chapter 5: Biomining Microorganisms: Diversity and Modus Operandi -- Chapter 6: Biomolecular and Cultivation Tools -- Chapter 7: Microbial ecology of bioheaps, stirred tanks and mine wastes -- Chapter 8: Biomining in China: history and current status -- Chapter 9: Copper Bioleaching Operations in Chile: Towards New Challenges and Developments -- Chapter 10: Heap bioleaching of an enargite-dominant ore body: Minera Yanacocha, Péru -- Chapter 11: Bio-oxidation of gold ores in Russia and Kazakhstan -- Chapter 12: Biomining in Finland: Commercial Application of Heap and Tank Bioleaching Technologies for Nickel Recovery -- Chapter 13: Mineral Bioleaching in Brackish and Saline Environments -- Chapter 14: Metal Recovery from E-wastes -- Chapter 15:Reductive Mineral Bioprocessing -- Chapter 16: Biological Removal and Recovery of Metals from Waste Streams and Process Waters -- Chapter 17: The Future of Biomining: Towards Sustainability in a Metal-demanding World. This book describes emerging and established industrial processes of biomining technologies used for the recovery of metals of economic interest from, e.g. mineral ores, mining and electronic wastes using microbiological technologies. Multiple chapters focus on engineering design and operation of biomining systems. Several industrial case studies from China, Chile, Peru, Russia/Kazakhstan and Finland are included, which emphasises the practical approach of the book. The reader not only learns more about the biology, diversity and ecology of microorganisms involved in biomining processes, but also about microbial biomolecular and cultivation tools used in the biomining industry. Special emphasis is put on emerging biotechnologies enabling the use of biomining for recycling metals from e-wastes, waste streams and process waters. Finally, the future impacts and direction of biomining towards sustainability in a metal-demanding world are also highlighted. The book is aimed at an interdisciplinary audience involving operators and researchers working across disciplines including geology, chemical engineering, microbiology and molecular biology. This is reflected by the content of this book, as well as by its authors, who are all leading practitioners and authorities in their fields. Industrial microbiology. Biotechnology. Microbial populations. Refuse and refuse disposal. Industrial Microbiology. Microbial Communities. Waste Management/Waste Technology. Johnson, David Barrie. editor. edt http://id.loc.gov/vocabulary/relators/edt Bryan, Christopher George. editor. edt http://id.loc.gov/vocabulary/relators/edt Schlömann, Michael. editor. edt http://id.loc.gov/vocabulary/relators/edt Roberto, Francisco Figueroa. editor. edt http://id.loc.gov/vocabulary/relators/edt SpringerLink (Online service) Springer Nature eBook Printed edition: 9783031053818 Printed edition: 9783031053832 Printed edition: 9783031053849 |
| spellingShingle | Biomining Technologies Extracting and Recovering Metals from Ores and Wastes / Chapter 1: Evolution and current status of mineral bioprocessing technologies -- Chapter 2: Design, Construction and Modelling of Bioheaps -- Chapter 3: Engineering Designs and Challenges of Stirred Tank Systems -- Chapter 4: Bioprocessing of Refractory Gold Ores: The BIOX, MesoTHERM and ASTER Processes -- Chapter 5: Biomining Microorganisms: Diversity and Modus Operandi -- Chapter 6: Biomolecular and Cultivation Tools -- Chapter 7: Microbial ecology of bioheaps, stirred tanks and mine wastes -- Chapter 8: Biomining in China: history and current status -- Chapter 9: Copper Bioleaching Operations in Chile: Towards New Challenges and Developments -- Chapter 10: Heap bioleaching of an enargite-dominant ore body: Minera Yanacocha, Péru -- Chapter 11: Bio-oxidation of gold ores in Russia and Kazakhstan -- Chapter 12: Biomining in Finland: Commercial Application of Heap and Tank Bioleaching Technologies for Nickel Recovery -- Chapter 13: Mineral Bioleaching in Brackish and Saline Environments -- Chapter 14: Metal Recovery from E-wastes -- Chapter 15:Reductive Mineral Bioprocessing -- Chapter 16: Biological Removal and Recovery of Metals from Waste Streams and Process Waters -- Chapter 17: The Future of Biomining: Towards Sustainability in a Metal-demanding World. Industrial microbiology. Biotechnology. Microbial populations. Refuse and refuse disposal. Industrial Microbiology. Microbial Communities. Waste Management/Waste Technology. |
| title | Biomining Technologies Extracting and Recovering Metals from Ores and Wastes / |
| title_auth | Biomining Technologies Extracting and Recovering Metals from Ores and Wastes / |
| title_exact_search | Biomining Technologies Extracting and Recovering Metals from Ores and Wastes / |
| title_full | Biomining Technologies [electronic resource] : Extracting and Recovering Metals from Ores and Wastes / edited by David Barrie Johnson, Christopher George Bryan, Michael Schlömann, Francisco Figueroa Roberto. |
| title_fullStr | Biomining Technologies [electronic resource] : Extracting and Recovering Metals from Ores and Wastes / edited by David Barrie Johnson, Christopher George Bryan, Michael Schlömann, Francisco Figueroa Roberto. |
| title_full_unstemmed | Biomining Technologies [electronic resource] : Extracting and Recovering Metals from Ores and Wastes / edited by David Barrie Johnson, Christopher George Bryan, Michael Schlömann, Francisco Figueroa Roberto. |
| title_short | Biomining Technologies |
| title_sort | biomining technologies extracting and recovering metals from ores and wastes |
| title_sub | Extracting and Recovering Metals from Ores and Wastes / |
| topic | Industrial microbiology. Biotechnology. Microbial populations. Refuse and refuse disposal. Industrial Microbiology. Microbial Communities. Waste Management/Waste Technology. |
| topic_facet | Industrial microbiology. Biotechnology. Microbial populations. Refuse and refuse disposal. Industrial Microbiology. Microbial Communities. Waste Management/Waste Technology. |
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