Reprint

Sustainable Production of Metals for Low-Carbon Technologies

Edited by
December 2023
178 pages
  • ISBN978-3-0365-9717-1 (Hardback)
  • ISBN978-3-0365-9716-4 (PDF)

This is a Reprint of the Special Issue Sustainable Production of Metals for Low-Carbon Technologies that was published in

Chemistry & Materials Science
Engineering
Environmental & Earth Sciences
Summary

A high demand for metals (cobalt, copper, gold, lithium, nickel, tin, vanadium, etc.) has been recorded for the past several decades, and this demand is expected to increase even further in the coming decades as the world moves to low-carbon technologies based on renewable energy sources (RESs) and electric vehicles (EVs) and away from the heavy use of fossil fuels. To meet the high forecasted demand, unconventional sources of metals such as low-grade complex ores, seafloor massive sulfides (SMSs), and wastes (e.g., tailings, metallurgical residues, and electronic wastes (e-wastes)) have become very important sources of metals; moreover, these metals should be extracted in a sustainable manner without negatively impacting the environment. This Special Issue focused on recent advances in the sustainable production of metals from the above-mentioned unconventional sources.This reprint is a compilation of a Special Issue of Minerals, “Sustainable Production of Metals for Low-Carbon Technologies”, where 13 papers contributed by experts in the area were published. Papers published in this Reprint cover a wide range of topics, including mineral processing (gravity concentration, magnetic separation, and flotation), hydrometallurgical techniques (leaching, solvent extraction, and cementation) to extract minerals/metals from primary and secondary resources. All the papers are of high scientific value and will be of great interest to readers of Minerals.

Format
  • Hardback
License and Copyright
© 2022 by the authors; CC BY-NC-ND license
Keywords
flotation circuit; gold ore; diagnosis; optimization; mass balance; process simulation; printed circuit boards; heat treatment; strength; liberation; Cu recovery; physical separation; ferronickel slag; sulfuric acid leaching; light magnesium oxide; rare earth elements; magnetic separation; upgradation; Khalzan Buregtei deposit; NiMH batteries; rare earth metals; leaching; solvent extraction; precipitation; gold; cementation; galvanic interaction; aluminum; activated carbon; kinetics; ammonium thiosulfate solution; mass transfer; fluorine; occurrence; removal; gravity-flotation separation; lignite; leaching; cementation; lead; zinc; Al metal powder; zinc plant leach residues; flotation; copper sulfides; tailings; carrier flotation; flocculation; oil agglomeration; flotation; complex sulfide ores; sphalerite; anglesite; extraction; cementation; lithium ion battery; recycling; carbothermic reduction; activated carbon; graphite; flotation; porphyry copper deposits; chalcopyrite; sphalerite; pyrite; galvanic interaction; n/a