Thermodynamic and XRD analysis of arsenopyrite biooxidation and enhancement of oxidation efficiency of gold-bearing concentrates

摘要

Gold found in ores may be associated with sulfidic minerals (mainly arsenopyrite and pyrite). The biooxidation of sulfidic minerals is a method to recover gold from these ores. In this study, the biooxidation of arsenopyrite was investigated, and a method to increase the biooxidation of sulfidic concentrates was proposed. It was demonstrated that thin sections of single crystals of arsenopyrite were oxidized more efficiently when a microbially produced Fe3+ containing solution was used than when solutions of Fe-2(SO4)(3)center dot 9H(2)O were used. In the latter case, the crystal structure of the elemental sulfur was markedly different from rhombic sulfur. Studies on the biooxidation of pure arsenopyrite and sphalerite indicated that a layer of elemental sulfur was formed on its surface. This product of biooxidation was identified as elemental sulfur with a beta-modification similar to that of selenium. The microorganisms used in this study were demonstrated to alter the crystal structure of sulfur prior to the oxidation thereof, independent of the type of mineral.