Advances in Mineral Processing and Hydrometallurgy

Edited by
September 2021
480 pages
  • ISBN978-3-0365-2079-7 (Hardback)
  • ISBN978-3-0365-2080-3 (PDF)

This book is a reprint of the Special Issue Advances in Mineral Processing and Hydrometallurgy that was published in

Chemistry & Materials Science

This is a Special Issue of Metals devoted to aspects of Advances in Mineral Processing and Hydrometallurgy. This includes a global call for article submissions that also included Characterization along with Recycling and Waste Minimization. As such, both primary and recycled aspects will be considered. Possible specific topics included Mineralogy, Geometallurgy, Thermodynamics, Kinetics, Comminution, Classification, Physical Separations, Liquid–Solid Separations, Leaching, Solvent Extraction, Ion Exchange, Activated Carbon, Precipitation, Reduction, Process Economics and Process Control. Suggested application areas were in Gold, Silver, PGM’s, Aluminum, Copper, Zinc, Lead, Nickel, and Titanium. Critical Metals articles on topics such as Lithium, Antimony Tellurium, Gallium, Germanium, Cobalt, Graphite, Indium, and Rare Earth were also welcome. As such, this Special Issue of Metals was well supported by diverse submissions and the final publication of high-quality peer-reviewed articles.

  • Hardback
© 2022 by the authors; CC BY-NC-ND license
BOS filter cakes; butyric acid; selective leaching; leaching behaviors; zinc; iron; chalcocite; sulphide leaching; copper; reusing water; desalination residue; ecological treatment; leaching; black copper ore; copper wad; copper pitch; comminution; grinding circuit; Swebrec function; size distribution models; modelling; lateritic ore; iron and steelmaking wastes; zinc; alkalis; aqueous treatment; waste treatment; reducing agent; manganese; viscoelasticity; quartz; kaolin; seawater; magnesium precipitates; chalcopyrite concentrate; hydrogen peroxide; sulfuric acid; leaching kinetics; seawater; copper tailings; rheology; fractal aggregates; thickening; MnO2; acid media; ANOVA; dissolution; arsenic; trisulfide; copper sulfate; kinetics; leaching; shrinking core model; time-to-a-given-fraction kinetics analysis; silica recovery; column flotation; mining waste; waste reprocessing; dissolution; CuFeS2; chloride media; manganese nodules; thiosulfate; gold leaching; silver leaching; kinetic analysis; sedimentary ore; diffusion control; mixed control; leaching; chalcopyrite; ionic liquid; bromide; seawater flotation; pyrite depression; guar gum; FBRM; clay-based copper tailings; fractal dimension; mixing intensity; population balance model; seawater flocculation; platinum-group metal; metal precipitation; ion-pair; aliphatic primary amine; hydrochloric acid; copper tailings; enhanced flocculation; water recovering; magnesium removal; population balance model; seawater flocculation; shredded waste printed circuit boards; precious metals; bromine; leaching kinetics; platinum group elements; catalytic converters; acidic fusion; acidic leaching; sulfation; n/a; chalcopyrite; leaching; nitrate; seawater; gas scrubbing; recovery; gold; refractory; nitric acid; microwave; coal fly ash; sandy grade alumina; AlCl3·6H2O; crystallization; salting-out method; gibbsite; precipitation; electric arc furnace dust; monosodium glutamate; leaching; zinc; copper; ammonia leaching; high-pressure leaching; copper extraction; silver extraction; desilication; kinetics; malachite; carbonate; leaching; ammonium hydroxide; heterogeneous model; rare earth elements; NdFeB permanent magnet; hydrometallurgical; recovery; electrodialysis (ED); lithium; lithium-ion battery; lithium sulfate; multistage concentration (MSC); gold cyanide leaching; sulfide minerals; SART process; cyanidation; activated carbon; metal–cyanide complex; copper ore; carbon in pulp (CIP), agitated tank; cyanide complexes; n/a