Stepwise dissolution of chalcopyrite bioleaching by thermophile A.manzaensis and mesophile L. ferriphilum

Chalcopyrite dissolution was evaluated by bioleaching and electrochemical experiments with thermophile A. manzaensis ( Acidianus manzaensis ) and mesophile L. ferriphilum ( Leptospirillum ferriphium ) cultures at 65 °C and 40 °C, respectively. It was investigated that the bioleaching of chalcopyrite...

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Published in	Journal of Central South University Vol. 22; no. 10; pp. 3751 - 3759
Main Authors	Gu, Guo-hua, Xiong, Xian-xue, Hu, Ke-ting, Li, Shuang-ke, Wang, Chong-qing
Format	Journal Article
Language	English
Published	Changsha Central South University 01.10.2015
Subjects	Engineering Metallic Materials electrochemistry chalcopyrite bioleaching
Online Access	Get full text
ISSN	2095-2899 2227-5223
DOI	10.1007/s11771-015-2919-6

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Abstract	Chalcopyrite dissolution was evaluated by bioleaching and electrochemical experiments with thermophile A. manzaensis ( Acidianus manzaensis ) and mesophile L. ferriphilum ( Leptospirillum ferriphium ) cultures at 65 °C and 40 °C, respectively. It was investigated that the bioleaching of chalcopyrite was stepwise. It was reduced to Cu 2 S at a lower redox potential locating in the whole bioleaching process by A. manzaensis at high temperature while only at initial days of bioleaching by L. ferriphilum at a relative low temperature. No reduced product was detected when the redox potential was beyond a high level (e.g., 550 mV (vs SCE)) bioleached by L. ferriphilum . Chalcopyrite bioleaching efficiency was substantially improved bioleached by A. manaensis compared to that by L. ferriphilum , which was mainly attributed to the reduction reaction occurring during bioleaching. The reductive intermediate Cu 2 S was more amenable to oxidation than chalcopyrite, causing enhanced copper extraction.
AbstractList	Chalcopyrite dissolution was evaluated by bioleaching and electrochemical experiments with thermophile A. manzaensis ( Acidianus manzaensis ) and mesophile L. ferriphilum ( Leptospirillum ferriphium ) cultures at 65 °C and 40 °C, respectively. It was investigated that the bioleaching of chalcopyrite was stepwise. It was reduced to Cu 2 S at a lower redox potential locating in the whole bioleaching process by A. manzaensis at high temperature while only at initial days of bioleaching by L. ferriphilum at a relative low temperature. No reduced product was detected when the redox potential was beyond a high level (e.g., 550 mV (vs SCE)) bioleached by L. ferriphilum . Chalcopyrite bioleaching efficiency was substantially improved bioleached by A. manaensis compared to that by L. ferriphilum , which was mainly attributed to the reduction reaction occurring during bioleaching. The reductive intermediate Cu 2 S was more amenable to oxidation than chalcopyrite, causing enhanced copper extraction.
Author	Hu, Ke-ting Wang, Chong-qing Li, Shuang-ke Gu, Guo-hua Xiong, Xian-xue
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Snippet	Chalcopyrite dissolution was evaluated by bioleaching and electrochemical experiments with thermophile A. manzaensis ( Acidianus manzaensis ) and mesophile L....
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StartPage	3751
SubjectTerms	Engineering Metallic Materials
Title	Stepwise dissolution of chalcopyrite bioleaching by thermophile A.manzaensis and mesophile L. ferriphilum
URI	https://link.springer.com/article/10.1007/s11771-015-2919-6
Volume	22
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