Silver-catalyzed bioleaching of copper, molybdenum and rhenium from a chalcopyrite–molybdenite concentrate

This study evaluated silver-catalyzed bioleaching to solubilize copper from a chalcopyrite-bearing molybdenite concentrate with mesophilic (32 °C) and moderately thermophilic (45 °C) microbial consortia. The Cu content of the concentrate was 0.98% (wt/wt), with chalcopyrite as the major Cu-bearing mineral. The molybdenite phase (53.8% Mo) also contained 0.055% rhenium. The addition of Ag+ as silver nitrate greatly enhanced copper dissolution under bioleaching conditions. Overall, >93% Cu was leached in the bioleaching experiments involving the addition of up to 200 mg l−1 Ag, contrasted by 53% Cu solubilization in the absence of silver. The highest relative yields (>99%) were obtained under moderately thermophilic conditions. Different pulp densities (3–9%) and initial pH values (1.5–1.9) were also tested in the bioleaching experiments but their effects were masked by enhancement of copper leaching due to silver catalysis. Molybdenum and rhenium responded comparably to changes in bioleaching conditions, suggesting that Re was located in the molybdenite matrix. Their relative dissolution was