Pretreatment of Copper Sulphide Ores Prior to Heap Leaching: A Review

Neira, Andres; Pizarro, Diana; Quezada, Victor; Velasquez-Yevenes, Lilian

Abstract

Although the main cause of hydrometallurgical plant closures is the depletion of oxidized copper minerals reserves, the lack of new hydrometallurgy projects also contributes to these closures. One solution is to be able to process copper sulphide ores hydrometallurgically. However, it is widely known that sulphide copper ores-and chalcopyrite in particular-have very slow dissolution kinetics in traditional leaching systems. An alternative to improve the extraction of copper from sulphide ores is the use of a pretreatment process. Several investigations were developed evaluating the effects of pretreatment, mainly in the extraction of copper from chalcopyrite in chloride media. This study presents a review of various pretreatment methods prior to heap leaching to aid in the dissolution of copper from sulphide ores. Different variables of pretreatment that affect the extraction of copper were identified, including the type of salts used in agglomeration, curing time, and curing temperatures. Successful cases such as the implementation of the CuproChlor(R) process (use of calcium chloride), and various pilot studies using sodium chloride and temperature, show that pretreatment is an alternative that aids in the dissolution of copper from sulphide ores.

Más información

Título según WOS: Pretreatment of Copper Sulphide Ores Prior to Heap Leaching: A Review
Título de la Revista: METALS
Volumen: 11
Número: 7
Editorial: MDPI
Fecha de publicación: 2021
DOI:

10.3390/MET11071067

Notas: ISI