Characteristics of Gold Minerals in Gold Concentrate with a High Copper Content and Effective Gold Recovery via Flotation and Ammonia Pretreatment–Cyanidation Leaching

The characteristics of ultrafine gold minerals in gold concentrate with a high copper content produced by a large gold mining company in Shandong Province were determined via chemical composition analysis, phase analysis, and mineral liberation analysis. The results showed that the concentrate conta...

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Bibliographic Details
Published in:Minerals (Basel) 2023-08, Vol.13 (8), p.1088
Main Authors: Liu, Yuebing, Wen, Shuming
Format: Article
Language:English
Subjects:
Acidification
Ammonia
Ammonia pressure leaching
ammonia pretreatment
Analysis
Bulk flotation
Chalcopyrite
Chemical composition
Copper
Copper industry
Cyanidation
cyanidation leaching
Energy consumption
enhancing floatation separation
Flotation
Fractions
Gold
gold concentrate with high copper content
Gold mines & mining
Gold mines and mining
Leaching
Liberation analysis
Mineral industry
Minerals
Mining industry
Oxidation
Pretreatment
Pyrite
Quartz
Raw materials
Securities
Silver
Silver mines
Sodium cyanide
Sulfur
Sulfur compounds
Sulfur content
Sulphur
Ultrafines
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Summary:The characteristics of ultrafine gold minerals in gold concentrate with a high copper content produced by a large gold mining company in Shandong Province were determined via chemical composition analysis, phase analysis, and mineral liberation analysis. The results showed that the concentrate contained 48.13 g/t gold, which was mainly in the form of native gold and electrum. Regarding the gold mineral particles, 57.65% were completely liberated and 35.75% were associated with chalcopyrite and pyrite. The remainder mainly comprised wrapped intergrowths. The cumulative distributions of native gold and electrum fractions with diameters of less than 75 µm were 82.55% and 90.15%, respectively. Enhanced Cu–S bulk flotation, and then, Cu–S separation from the raw material were proposed to effectively enrich the gold minerals and decrease the treatment throughput during the leaching operation. The optimized conditions yielded a concentrate with a high copper content (3.89% Cu and 545.62 g/t Au contents, and 83.15% Cu and 77.54% Au recoveries) and a concentrate with a high sulfur content (0.059% Cu and 15.03 g/t Au contents, and 83.15% Cu and 21.28% Au recoveries). The capacity of the subsequent leaching process was reduced by 25%. Ammonia pretreatment was introduced to decrease the adverse effect of copper on cyanidation leaching for the copper concentrate. Under the optimized leaching conditions, gold dissolution reached 99.76%, which was approximately 4% higher than that obtained via direct leaching. The NaCN consumption decreased over 10 kg/t. These results could serve as a valuable reference for the economic and green utilization of gold resources from concentrate with a high copper content.
ISSN:2075-163X
2075-163X
DOI:10.3390/min13081088