The Influence of Lead Additions to an Alkaline Aqueous Cyanide Solution on the Anodic Behaviour of Gold

Although the cyanidation process for gold leaching has been applied for more than a hundred years, some aspects of it, such as the passivation of the gold and the depassivating action of heavy metals, are still not well understood. In this work the anodic behaviour and surface composition of gold in alkaline aqueous cyanide with lead additions were investigated using polarization experiments and XPS. It was found that lead in the solution activated the gold at low concentrations, somewhat more positive than the reversible potential for gold, but that the activity again decreased at higher concentrations of lead. The potential range for the activation of the gold coincides with that where underpotential deposition of lead occurs, i.e. –200 to –600 mV(SCE), as indicated by the surface composition of the gold, shown in figure 1. Note that the concentration of lead on the surface of the gold only increased with time in the bulk plating potential range for lead, where gold is not activated by the presence of lead. It is also shown that up to 20 mg/L of lead added to the solution will activate the gold, provided that bulk plating of the lead is avoided. It is also important to avoid reducing conditions during leaching, where bulk plating of lead may occur, if the gold is to be activated by lead to achieve a high leaching rate, as the bulk plated lead screens the surface rather than activating it.