Leaching of a polymetal gold ore and reducing cyanide consumption using cyanide-glycine solutions

Many aspects of gold ores leaching by glycine (C2H5NO2) and glycine-cyanide solutions are still not well understood. The base-metal components have been shown to have a strong impact on gold leaching kinetics. In this research, with the aim of reducing cyanide consumption, leaching of a polymetal (Pb-Cu-Zn) gold ore using a synergistic lixiviant mixture of cyanide and glycine has been studied. The results showed that by increasing cyanide concentration from 500 to 1500 ppm, the gold dissolution increased from 46% to about 80%. The gold dissolution of 90% could be achieved by adding 0.5-1 M/L glycine to 500 ppm cyanide while the copper dissolution increases to more than 30%. Interestingly, 80% gold dissolution could be obtained by 0.5 M/L glycine even using 200 ppm cyanide over 72 h. At the optimal approach, cyanide consumption can be reduced by about 80% compared with 1500 ppm cyanide (without glycine). In the studied sample, besides Cu, Pb, Zn and Fe minerals are the other cyanide consumers. Their dissolutions increased as glycine concentration increased. This can be considered as a negative aspect of the cyanide-glycine leaching and indicates its poor selectivity for gold. Pb, Zn, Fe, Ag, and Cu are more sensitive to glycine concentration rather than cyanide concentration.

Automated summary

The study investigated the leaching of a polymetal gold ore using a synergistic lixiviant mixture of cyanide and glycine. Increasing cyanide concentration from 500 to 1500 ppm resulted in a higher gold dissolution rate. However, using 0.5-1 M/L glycine in 500 ppm cyanide can achieve 90% gold dissolution with increased copper dissolution.。Reducing cyanide consumption by approximately 80% was achieved at the optimal approach, but increasing glycine concentration also led to higher dissolution of other metals like Pb, Zn, Fe, Ag, and Cu.