Abstract
The adsorption behavior of gold in ammoniacal solutions on activated carbon was studied. The gold adsorption capacity of the activated carbon and the recovery efficiency were examined. The parameters affecting the adsorption of gold on the activated carbon included temperature, agitation speed, the concentration of cation and anion and the concentration of ammonia.
It was found that the maximum gold adsorption was about 10 kg/t of carbon. The recovery of gold by the adsorption from ammoniacal solutions was found to be dependent upon the initial gold concentration. Under experimental conditions, a gold recovery of 98% was obtained after 120 hrs of adsorption.
It was also found that the initial adsorption rate was relatively fast, when compared to the entire adsorption period. The apparent activation energy for the adsorption was determined to be 15.8 kJ/mol. It was believed that the kinetics of gold adsorption on the activated carbon was controlled by pore diffusion.
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SME preprint 95-6, SME Annual Meeting, March 6–9, 1995, Denver, CO. M&MP paper 96–629. Discussion of this peer-reviewed and approved paper is invited and must be submitted, in duplicate, prior to Feb. 28, 1997.
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Xu, Q., Meng, X. & Han, K.N. Adsorption behavior of gold in ammoniacal solutions on activated carbon. Mining, Metallurgy & Exploration 13, 141–146 (1996). https://doi.org/10.1007/BF03402735
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DOI: https://doi.org/10.1007/BF03402735