Leaching of pure chalcocite with reject brine and MnO2 from manganese
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AuthorTorres Albornoz, David Antonio; Trigueros Tornero, Emilio; Robles Vásquez, Pedro Adrián; Leiva, Williams H.; Jeldres Valenzuela, Ricardo Iván; [et al.]
SponsorsThe authors thank the Scientific Equipment Unit-MAINI of the Universidad Católica del Norte for all the chemical analyses in this work. The authors are grateful for the contribution of the Scientific Equipment Unit-MAINI of the Universidad Católica del Norte for facilitating the chemical analysis of the solutions. Pedro Robles thanks the Pontificia Universidad Católica de Valparaíso for the support provided. Pedro G. Toledo and Ricardo I. Jeldres thank Centro CRHIAM Project Anid/Fondap/15130015.
Bibliographic CitationTorres, D.; Trigueros, E.; Robles, P.; Leiva, W.H.; Jeldres, R.I.; Toledo, P.G.; Toro, N. Leaching of Pure Chalcocite with Reject Brine and MnO2 from Manganese Nodules. Metals 2020, 10, 1426. https://doi.org/10.3390/met10111426
Chalcocite (Cu2S) has the fastest kinetics of dissolution of Cu in chlorinated media of all copper sulfide minerals. Chalcocite has been identified as having economic interest due to its abundance, although the water necessary for its dissolution is scarce in many regions. In this work, the replacement of fresh water by sea water or by reject brine with high chloride content from desalination plants is analyzed. Additionally, the effect of adding MnO2 from available manganese nodules in vast quantities at the bottom of the sea is studied. Reject brine shows better results than sea water, and the addition of MnO2 to the brine significantly increases the kinetics of chalcocite dissolution in a short time. H2SO4 concentration is found to be irrelevant when working at high concentrations of chloride and MnO2. The best results, 71% Cu extractions in 48 h, are obtained for reject brine, 100 mg of MnO2 per 200 g of mineral and H2SO4 0.5 mol/L. The results are expected to contribute to a susta ...
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