Study on bioleaching behavior of sphalerite from lead concentrate in agitator tank

Sphalerite which is highly continuous with galena cannot be effectively separated by flotation, the extraction of zinc from sphalerite in bioleaching process has become an alternative method. By testing the initial iron concentration, pulp density, grinding fineness and other parameters as well as m...

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Veröffentlicht in:	Journal of physics. Conference series 2024-04, Vol.2738 (1), p.12012
Hauptverfasser:	Xue, Liu, Jianzhi, Sun, Shuang, Liu, He, Shang, Wencheng, Gao, Xinlong, Yang, Jiankang, Wen, Bowei, Chen
Format:	Artikel
Sprache:	eng
Schlagworte:	Bacterial leaching Dissolved oxygen Ferric ions Fineness Flotation Galena Leaching Lead Zinc Zincblende
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creator	Xue, Liu Jianzhi, Sun Shuang, Liu He, Shang Wencheng, Gao Xinlong, Yang Jiankang, Wen Bowei, Chen
description	Sphalerite which is highly continuous with galena cannot be effectively separated by flotation, the extraction of zinc from sphalerite in bioleaching process has become an alternative method. By testing the initial iron concentration, pulp density, grinding fineness and other parameters as well as monitoring pH, potential and dissolved oxygen, the zinc content of the lead concentrate decreased from 8.41% to less than 1% after bioleaching in 8L agitator tank. The initial concentration of ferric is the most significant factor affecting the zinc extraction efficiency of sphalerite, and when the concentration of ferric ions reaches 9g/L, acceptable leaching yield can be achieved.
doi_str_mv	10.1088/1742-6596/2738/1/012012
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subjects	Bacterial leaching Dissolved oxygen Ferric ions Fineness Flotation Galena Leaching Lead Zinc Zincblende
title	Study on bioleaching behavior of sphalerite from lead concentrate in agitator tank
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