Journal
MINERALS ENGINEERING
Volume 163, Issue -, Pages -Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.mineng.2021.106777
Keywords
Zinc-leached residue (ZLR); Galena; Reductive leaching; Indium; Kinetics
Funding
- China National Natural Science Funds [U1760120, 51504059]
- Liaoning Science and Technology Project Fund [20180551008]
- China Postdoctoral Science Foundation [02180074418005]
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A new reductive leaching process using galena as reductant has been developed to achieve extensive leaching of zinc and indium from the indium-bearing zinc-leached residue. A shrinking core model controlled by surface chemical reaction best fitted the leaching process of indium. The apparent activation energy of indium leaching was calculated to be 64 kJ/mol, with reaction orders of -0.34 and 1.47 with respect to particle size and initial H2SO4 concentration, respectively.
Large quantities of indium-bearing zinc-leached residue (ZLR) are produced constantly in the hydrometallurgical production of zinc, including zinc, indium, iron and other valuable metals. In order to recover valuable metals from the residue, a new reductive leaching process using galena as reductant has been developed, in which the extensive leaching of zinc and indium is achieved. A shrinking core model under the control of surface chemical reaction best fitted the leaching of indium from the residue. The apparent activation energy of indium leaching was calculated to be 64 kJ/mol, and the reaction orders were determined as -0.34 and 1.47 with respect to particle size and initial H2SO4 concentration, respectively. The extent of leaching was 87% for zinc, 91% for iron and 88% for indium after 90 min at 85 degrees C, using an initial H2SO4 concentration of 140 g/L and a molar ratio of lead sulfide to zinc ferrite of 1:1. The reductive leaching process of the residue achieved high dissolution of zinc and indium, and iron existed as Fe2+ in solution would prove beneficial for the subsequent iron removal stage.
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