A novel
and sustainable technology to recover gold from thiosulfate
medium using ionic liquids, i.e., Cyphos IL 101 (Cy IL 101) and Cyphos
IL 102 (Cy IL 102) diluted in toluene, has been developed. Gold was
extracted into the ionic liquid phase as [{P66614
+}3{Au(S2O3)2
3–}] and stripped using NaCl solution. The recyclability of ionic liquids
has shown promising recirculation of the solvents for the extraction
of gold from thiosulfate medium. Gold was quantitatively extracted
from 0.2 mol/L sodium thiosulfate initially containing 10 mg/L gold
at pH = 9.0 with 1.25 mmol/L ionic liquid (Cy IL 101 or Cy IL 102)
in one stage at A/O = 2, whereas total gold stripping with 1.5 mol/L
NaCl also needed one stage at A/O = 1. Using a high A/O ratio in the
extraction stage (A/O = 10) and low (A/O = 1/10) in the stripping
stage confirmed the economic and environmental viability of the process.
The results revealed that Cy IL 101 presents slightly better behavior
toward gold recovery than Cy IL 102 and is a viable and promising
alternative to recover gold from the thiosulfate medium on a pilot
scale. The overall study confirmed the suitability of the developed
scheme for industrial application to provide economic and environmental
benefits.
Thiocyanate (SCN–) is a promising alternative
to cyanide as a lixiviant for gold extraction and is 1000 times less
toxic than cyanide. In this study, the following leaching parameters
were tested to optimize the gold recovery for the first time from
an oxide ore using the response surface methodology: initial thiocyanate
concentration (10–500 mM), initial Fe3+ concentration
(10–500 mM), and pulp density (10–50% w/v). The maximum
gold recovery (96%) was achieved with 500 mM thiocyanate, 100 mM Fe3+, and 50% pulp density at 25 °C and pH = 2 for 24 h.
A kinetic study on the optimum leaching condition showed that it followed
the shrinking core model, in which the rate-controlling mechanism
was the diffusion process. These results are discussed in the context
of the published literature.
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