Recovery of zinc during the pre-treatment of a refractory gold-bearing ore

MARCHEVSKY N.; URBIETA M.S.; BERNARDELI C.; DONATI E.R.

Antofagasta

Simposio; 20 th International Biohidrometallurgy Symposium; 2013

Mesophilic bacteria were enriched from samples collected from acid mine drainages in La Carolina (San Luis, Argentina). Two enrichments, E1 and E2, showed suitable rates for sulphur or iron oxidation, respectively. Both enrichments were characterized by their 16S rRNA gene sequences and FISH analysis. They were mainly composed by Acidithiobacillus ferrooxidans and Leptospirillum ferrooxidans, respectively. Studies with both, mixed and individual enrichments, showed biooxidation (measured as iron solubilisation) of a refractory gold-bearing pyrite ore from Hualilán (San Juan, Argentina). Pyrite and sphalerite were the main mineral species in the ore with 7 % w/w and 8 % w/w of iron and zinc and approximately 25 ppm of gold. Leaching experiments (2 % w/v ore, 1.8 initial pH, 180 rpm and 30°C) were carried out with the addition of different alternative energy sources (6.67 g/L sulphur powder, 1 g/L ferrous iron, 0.02 % w/v yeast extract). Redox potential, pH, ferrous iron concentration and total Fe and Zn were measured regularly. A 100% of iron leaching (after 30 days in the best experimental condition) was observed in some of the cultures. In other systems high zinc release was obtained (100% of dissolution after 30 days in the best experimental condition). Surprising behaviours in the cultures with yeast extract addition were observed. Further studied revealed the presence of heterotrophic native microorganisms in the mineral, that even survived sterilization. Our results strongly suggest that under the correct operating conditions, biooxidation pre-treatment can be used to recover zinc as a subproduct of gold extraction from refractory ore.