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Biotechnology of metals : principles, recovery methods and environmental concerns /
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Amsterdam, Netherlands :
Elsevier,
2018.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Biotechnology of Metals; Copyright Page; Contents; Preface; 1 Introduction-Status and Scope of Metals Biotechnology; References; 2 Biotechnology-Materials Interface: Biogenesis and Biomineralization; Biotechnology-Materials Interface; Biomimetics and Biomaterials; Biomineralization and Biogenesis Relevant to Ore Deposits; Sulfide Minerals; Iron Ores; Biomineralization of Bauxites; Gold and Platinum; Clays; Ocean Ferromanganese Nodules; Limestone, Silica, Phosphorous, and Arsenic; References; 3 Microbiological Aspects of Leaching Microorganisms; Bioleaching Microorganisms
- Microbial Communities in Mining EnvironmentsGeneral Characteristics, Physiology, and Molecular Aspects of A. ferrooxidans; A. thiooxidans; A. caldus; Leptospirillum; Acidiphilium; Sulfobacillus; Metallosphaera; Acidianus; A. albertensis; Acidithiobacillus ferrivorans; Acidithiobacillus ferridurans; Acidithiobacillus ferriphilus; References; Further Reading; 4 Bioleaching Mechanisms; Is Bacterial Attachment Necessary?; Electrochemical Aspects; Metal Toxicity and Development of Metal-Tolerant Strains; Highest Tolerance Achieved Through Adaptation (g/L); Copper Toxicity; Arsenic Toxicity
- Development of Multimetal-Tolerant Strains of A. ferrooxidansReferences; 5 Methods in Biohydrometallurgy and Developments: Dump, Heap, In Situ, and Stirred Tank Bioleaching; Historical Perspectives; Methods in Biohydrometallurgy; Heap Bioleaching; Heap microbiology; Dump Leaching; In Situ Leaching; Role of Microorganisms in ISL; Stirred Tank Bioleaching; Microbiological Aspects Relevant to Heap and Stirred Tank Reactors; Laboratory and Bench-Scale Tests for Developing Commercially Viable Bioleaching Processes; References; 6 Bioleaching of Copper and Uranium; Bioleaching of Copper
- Heap BioleachingCerro Colorado; Quebrada Blanca; Ivan Mine; Chuquicamata; Carmen de Andacollo; Dos Amigos; La Escondida; Spence; Prospects for Bioleaching of Chalcopyrite Ores and Concentrates; Microbial Succession and Dynamics; Technology Developments in Heap and Stirred Tank Bioleaching for Copper Ores and Concentrates; Bacterial Thin-Layer Leaching; Geocoat and Geoleach; Basic Aspects of the Geocoat Process; The StickiBugs Process; HotHeap; SmartColumn for High-Temperature Heaps; HeapStar Software; Heat Generation Within Bioheaps; Stirred Tank Bioleaching for Copper Concentrates
- Development of Heap Bioleach Technology for Chalcopyrite OresBioleaching of Uranium; Uranium Bioleaching Mechanisms; Microbially Mediated Redox Reactions Relevant to Uranium Extraction; Microbial Uranium Dissolution and Precipitation; Microbial Diversity and Biocatalyzed Reactions; Methods for Uranium Bioleaching; Developments in Heap and Stope Bioleaching for Uranium; Feasibility Studies on Different Types of Uranium Ores; Uranium Contamination and Bioremediation; References; 7 Bioleaching of Zinc, Nickel, and Cobalt; Bioleaching of Zinc Sulfide Ores and Concentrates; Indirect Bioleaching