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Copper Extraction from Oxide Ore of Almalyk Mine by H2SO4 in Simulated Heap Leaching: Effect of Particle Size and Acid Concentration

Chan-Ung Kang, Seung-Eun Ji, Thomas Pabst, Kung-Won Choi, Moonis Ali Khan, Rahul Kumar, Prakash Krishnaiah, Yosep Han, Byong‐Hun Jeon, Do-Hyeon Kim

2021Minerals18 citationsDOIOpen Access PDF

Abstract

In this investigation, a laboratory-scale study to extract copper (Cu) from its oxide ore (0.425–11.2 mm particle size) was conducted using varied sulfuric acid (H2SO4) concentrations (0.05–0.5 M) as a lixiviant. Through a physicochemical and mineralogical analysis of real field ore samples from the Almalyk mine heap site (Tashkent, Uzbekistan), malachite was identified as a Cu-bearing mineral. Extraction rates were analyzed according to the ore particle size and acid concentration. The Cu extraction with the smallest particle size (in 24 h) varied between 76.7% and 94.26% at varied H2SO4 concentrations (0.05–0.5 M). Almost half (50%) of Cu was extracted from the ore within 4 and 72 h of contact time for 0.425–2 mm and 5.6–11.2 mm particle sizes, respectively, using 0.15 M H2SO4. Weeklong leaching experiments with 0.5 M H2SO4 revealed a higher copper extraction rate (≥73%) from coarse ore particles (5.6–11.2 mm). Along with the copper extraction, iron (29.6 wt%), aluminum (70.2 wt%), magnesium (85.4 wt%), and calcium (44.4 wt%) were also leached out considerably through the dissolution of silicate and carbonate gangue minerals. In this study, an 80.0–94.26% copper extraction rate with reduced acid consumption (20%) proved to be a cost-effective approach.

Topics & Concepts

Heap leachingMalachiteLixiviantCopperSphaleriteCopper extraction techniquesParticle sizeIron oxide copper gold ore depositsGangueSulfuric acidLeaching (pedology)DissolutionChemistryAcid mine drainageHydrometallurgyMetallurgyMineralogySulfide mineralsCovelliteNuclear chemistryPyriteMaterials scienceGeologyChalcopyriteQuartzSoil waterFluid inclusionsSoil sciencePhysical chemistryMetal Extraction and BioleachingExtraction and Separation ProcessesMinerals Flotation and Separation Techniques
Copper Extraction from Oxide Ore of Almalyk Mine by H2SO4 in Simulated Heap Leaching: Effect of Particle Size and Acid Concentration | Litcius