Bioleaching of copper secondary sulfide ore in the presence of chloride by means of inoculation with chloride-tolerant microbial culture

摘要

Mining faces today an enormous challenge in terms of the limited availability of water resources. This is especially significant for bioleaching operations where not only the accessibility but also the water quality can be critical for the successful treatment and processing of minerals. Bioleaching circuits may even require the implementation of bleed or purge systems in order to manage impurities, like chloride for example, at adequate levels for microbial activity, therefore increasing water consumption. This study evaluates the alternative of bioleaching copper secondary sulfide ores in high chloride systems (resulting in increased process water recirculation in chloride-rich ore systems or as result of seawater utilization) by means of an adapted chloride and copper-tolerant mixed culture. A chalcocite-rich ore was bioleached in columns under different concentrations of chloride. The chloride-tolerant culture consisted of a mixed of Acidithiobacillus thiooxidans-like strain and Leptospirillum ferriphilum strain Sp-Cl (DSM 22399). High redox potentials and complete ferrous iron oxidation was achieved in all columns up to 6 g/L Cl~- reaching good copper extractions (from 79.5 to 83.3%) comparable to low-chloride bioleaching systems. The microbial population on the ore phase was predominantly represented by A thiooxidans-like strain in contrast to the column effluents where Leptospirillum strain Sp-Cl was the dominant microorganism.