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Full Description
Extensive industrialization has led to an increased release of toxic metals into the soil and air. Industrial waste can include mine overburden, bauxite residue, and E waste, and these can serve as a source of valuable recoverable metals. There are relatively simple methods to recycle these wastes, but they require additional chemicals, are expensive, and generate secondary waste that causes environmental pollution. Biohydrometallurgical processing is a cost-effective and ecofriendly alternative where biological processes help conserve dwindling ore resources and extract metals in a nonpolluting way. Microbes can be used in metal extraction from primary ores, waste minerals, and industrial and mining wastes. Biohydrometallurgical Processes: Metal Recovery and Remediation serves as a useful guide for microbiologists, biotechnologists, and various industrialists dealing with mining, metallurgy, chemical engineering, and environmental sciences.
Features:
Examines advances in biohydrometallurgy, biomineralization, and bioleaching techniques
Discusses the importance of bacteria in biohydrometallurgical processes and microbial interventions for waste cleanup and upgradation of minerals
Presents the latest techniques for biosynthesis related to different metals, along with recent developments in alternative procedures using extremophiles and leaching bacteria
Contents
1. Formation Mechanisms and Prevention Strategies of Microorganism-Influenced Corrosion Biofilms. 2. Impacts of Biofouling on Marine Environments and Its Prevention. 3. Metagenomic Analysis of Acid Mine Drainage, Presence of Acidometallophiles and Their Possible Role in Biomining. 4. Environmental Rehabilitation of Industrial Waste Dumping Site. 5. Metagenomics-Based Characterization of Microbial Diversity across Industrial Waste Dumping Sites. 6. Application of Microbes in Leaching Rare Earth Elements and Radioactive Elements: Bioleaching of Rare Earth Elements: A Challenge and Success. 7. An Understanding of the Underlying Mechanisms Involved in the Bacterial Remediation of Arsenic, Cadmium, and Lead. 8. Mechanism of Long-Term Arsenic Remediation by Microbial Intervention. 9. Metagenomics for Studying Bioleaching Bioreactor. 10. Bioleaching: A Method of Microbial Recovery of Metal Values from Industrial Wastes. 11. Treasure Hunt: Converting E-Waste to E-Wealth. 12. Role of Sulfate-Reducing Bacteria in Sustainable Acid Mine Bioremediation. 13. Algae as a Bioremediation of Heavy Metal-Associated Water Pollution.
