Reprint
Recent Advances in Hydro- and Biohydrometallurgy
Edited by
July 2019
214 pages
- ISBN978-3-03921-299-6 (Paperback)
- ISBN978-3-03921-300-9 (PDF)
This is a Reprint of the Special Issue Recent Advances in Hydro- and Biohydrometallurgy that was published in
Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Summary
This Special Issue of Minerals presents recent, select studies that highlight advances in the fields of hydro- and biohydrometallurgy. It aims to attract the interest of readers and especially of young scientists and students in this fascinating scientific discipline. The topics addressed include the following:• Stirred reactor and heap leaching of laterites (limonitic and saprolitic), as well as iron control during atmospheric acid leaching;• Leaching of a typical porphyry copper sulfide deposit from Antofagasta, Chile, using chloride-ferrous solutions;• Leaching of chalcopyrite ores with various leaching media;• Leaching of white metal from a Teniente converter in NaCl-H2SO4 media; • Study of the galvanic effect of pyrite and arsenopyrite during the leaching of gold ores;• Leaching of marine nodules in the presence of reducing agents to extract Mn;• Bioleaching of gold ores in the presence of iodide-oxidizing bacteria;• A two-step sequential leaching process, involving bioleaching and chemical leaching, to treat apatite ores containing P and U impurities;• Bioreductive dissolution of iron minerals present in monazite in stirred reactors using Acidithiobacillus (A.) species;• Heap leaching of municipal solid waste incineration bottom ash (MSWI BA) for the recovery of Zn and Cu.
Format
- Paperback
License and Copyright
© 2019 by the authors; CC BY-NC-ND license
Keywords
nitrate; chalcopyrite; chloride; leaching; seawater; leaching; primary sulfide copper; chalcopyrite; chloride; limonitic laterites; column leaching; sulphuric acid; sodium sulfite; manganese nodules; leaching; secondary mining; slag; low-grade saprolitic laterite; counter-current leaching; pregnant leach solution; purification; iron reduction; reductive mineral dissolution; Acidithiobacillus; laterites; phosphate mineral; REE; galvanic effect; pyrite–arsenopyrite galvanic pair; electrochemical; frontier orbital methods; agglomeration; curing; copper sulfide; chalcopyrite; pretreatment; nitrate; chloride; iodide-oxidizing bacteria; bioleaching; gold; iodide; iodine; triiodide; gold diiodide; secondary products; reducing agent; waste reuse; acid media; municipal solid waste incineration; bottom ash; heap leaching; bioleaching; metal extraction; acid leaching; white metal; ferric ion; chloride ion; bioleaching; phosphorus; fluorapatite; uranium; leaching; manganese nodules; optimization of parameters; tailings; laterite; nickel; leaching; jarosite; precipitation; n/a