Dissolution of Black Copper Oxides from a Leaching Residue

Quezada, Victor; Benavente, Oscar; Beltran, Cristopher; Diaz, Danny; Melo, Evelyn; Garcia, Antonio

Abstract

This article presents the behavior of black copper minerals in reducing acid leaching using FeSO(4)as reducing agent. The original sample, which was a blend of green and black copper minerals, was treated first by an oxidizing acid leach using O(3)to dissolve the soluble phase (green copper oxides). The residue (mainly black copper) was evaluated by agitated leaching under three different solution potentials, with respect to the standard hydrogen electrode (SHE) (450, 500, and 600 mV (SHE)) at 25 degrees C. The original sample and the leach residue were characterized by scanning electron microscope (SEM) and inductively coupled plasma atomic emission spectroscopy (ICP-AES). The O(3)leach residue was 1.43% copper, with 50% of the insoluble phase associated with copper pitch, copper limonites, and unreacted chrysocolla. The results of leaching using FeSO(4)demonstrate that it is possible to obtain 90% copper extraction using a solution with a potential of 450 mV, while leaching at 600 mV resulted in 65% copper extraction. Acid consumption was 40 kg/t in the test at 450 mV, followed by 30 kg/t in the 500 mV test, and finally 25 kg/t in the 600 mV test, showing that reactivity decreases with increased solution potential. The results show that retreatment of a leaching residue is possible, considering the presence of copper pitch, copper limonites, and chrysocolla as the main copper contributing minerals. Modeling of copper extraction with nonlinear regression is proposed. The retreatment of residues resulting from conventional acid leaching can be an alternative to make use of the treatment capacity of hydrometallurgical plants.

Más información

Título según WOS: Dissolution of Black Copper Oxides from a Leaching Residue
Título de la Revista: METALS
Volumen: 10
Número: 8
Editorial: MDPI
Fecha de publicación: 2020
DOI:

10.3390/MET10081012

Notas: ISI