This review describes the historical development and current state of metals leaching and sulfide mineral biooxidation by the minerals industries. During the past 20 years commercial
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2013年7月23日 Progress has been made in understanding and developing bioleaching of copper from primary copper sulfide minerals, chalcopyrite, covellite, and enargite. These
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2004年1月1日 This review describes the historical development and current state of metals leaching and sulfide mineral biooxidation by the minerals
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Progress has been made in understanding and developing bioleaching of copper from primary copper sulfide minerals, chalcopyrite, covellite, and enargite. These developments point to low
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2022年8月30日 Key points • Bioleaching of copper sulfide ore deposits is producing less copper today • Biooxidation of refractory gold ores is producing more gold than in the past • Available data suggest...
More2013年7月23日 Progress has been made in understanding and developing bioleaching of copper from primary copper sulfide minerals, chalcopyrite, covellite, and enargite. These
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KEY POINTS: • Bioleaching of copper sulfide ore deposits is producing less copper today • Biooxidation of refractory gold ores is producing more gold than in the past • Available data
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It is found that current research has made significant progress in anaerobic recovery, of great significance for the development of bioleaching technologies and industrial production of
MoreThis review describes the historical development and current state of metals leaching and sulfide mineral biooxidation by the minerals industries. During the past 20 years commercial
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Cells are active either in a planktonic state or attached to the mineral surface, forming biofilms. This review, as an update of the previous one (Vera et al., 2013a), summarizes some recent discoveries relevant to bioleaching microorganisms, contributing to
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2022年8月30日 While the mini-review part A focusses on microbiology and bioleaching mechanisms (Vera et al. 2022), this mini-review part B provides an overview on biomining including metal production data. Particular biohydrometallurgical processes and related microbiological background are thoroughly described in a recently published book (Johnson et
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2013年7月23日 Bioleaching review part B: progress in bioleaching: applications of microbial processes by the minerals industries. Olson GJ, Brierley JA, Brierley CL. Appl Microbiol Biotechnol, 63(3):249-257, 18 Oct 2003 Cited by: 105 articles
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2004年1月1日 Bioleaching review part A: Progress in bioleaching: Fundamentals and mechanisms of bacterial metal sulfide oxidation. January 2004; Applied Microbiology and Biotechnology 63(3):239-48;
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Commercial applications of biohydrometallurgy have advanced due to favorable process economics and, in some cases, reduced environmental problems compared to conventional metal recovery processes such as smelting. This review describes the historical development and current state of metals leaching and sulfide mineral biooxidation by the minerals industries.
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2003年10月18日 Bioleaching of metal sulfides is caused by astonishingly diverse groups of bacteria. Today, at least 11 putative prokaryotic divisions can be related to this phenomenon. In contrast, the dissolution (bio)chemistry of metal sulfides follows only two pathways, which are determined by the acid-solubility of the sulfides: the thiosulfate and the polysulfide pathway.
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mini-review part A focusses on microbiology and bioleach-ing mechanisms (Vera et al. 2022), this mini-review part B provides an overview on biomining including metal pro-duction data. Particular biohydrometallurgical processes and related microbiological background are thoroughly described in a recently published book (Johnson et al. 2022).
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MINI-REVIEW Progress in bioleaching: part B: applications of microbial processes by the minerals industries Corale L. Brierley James A. Brierley Received: 21 April 2013 /Revised: 1 July 2013 /Accepted: 2 July 2013 /Published online: 23 July 2013 # Springer-Verlag Berlin Heidelberg 2013 Abstract This review presents developments and applica-
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This review presents developments and applications in bioleaching and mineral biooxidation since publication of a previous mini review in 2003 (Olson et al. Appl Microbiol Biotechnol 63:249-257, 2003). There have been discoveries of newly identified acidophilic microorganisms that have unique charac
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MINI-REVIEW G. J. Olson J. A. Brierley C. L. Brierley Bioleaching review part B: Progress in bioleaching: applications of microbial processes by the minerals industries Received: 29 March 2003 / Revised: 20 June 2003 / Accepted: 20 June 2003 / Published online: 18 October 2003 Springer-Verlag 2003
More2022年8月30日 While the mini-review part A focusses on microbiology and bioleaching mechanisms (Vera et al. 2022), this mini-review part B provides an overview on biomining including metal production data. Particular biohydrometallurgical processes and related microbiological background are thoroughly described in a recently published book (Johnson et
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2022年8月30日 Progress in bioleaching: part B, applications of microbial processes by the minerals industries. August 2022; Applied Microbiology and Biotechnology 106(3) ... 2022), this mini-review part .
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The dominance of either At. Bioleaching of metal sulfides is caused by astonishingly diverse groups of bacteria. Today, at least 11 putative prokaryotic divisions can be related to this phenomenon. In contrast, the dissolution (bio)chemistry of metal sulfides follows only two pathways, which are determined by the acid-solubility of the sulfides: the thiosulfate and the
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2003年10月18日 Bioleaching review part B: progress in bioleaching: applications of microbial processes by the minerals industries. Olson GJ 1 , Brierley JA, Brierley CL. Author information. Affiliations. 1. Little Bear Laboratories, 5906 McIntyre Street, Golden, CO
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This review provides an update to the last mini-review with the same title pertaining to recent developments in bioleaching and biooxidation published in 2013, and available data suggest bio Leaching and Biooxidation processes reduce carbon emissions. This review provides an update to the last mini-review with the same title pertaining to recent developments in bioleaching
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Bioleaching of metal sulfides is performed by a diverse group of microorganisms. The dissolution chemistry of metal sulfides follows two pathways, which are determined by the mineralogy and the acid solubility of the metal sulfides: the thiosulfate and
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this mini-review part A focusses on microbiology, biolm formation and bioleaching mechanisms, part B provides an overview on biomining enriched with metal production data (Roberto and Schippers 2022). Diversity of bioleaching microorganisms Microorganisms commonly thriving in bioleaching opera-
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2013年5月30日 DOI: 10.1007/s00253-022-12168-7 Corpus ID: 252694930; Progress in bioleaching: fundamentals and mechanisms of microbial metal sulfide oxidation – part A @article{Vera2013ProgressIB, title={Progress in bioleaching: fundamentals and mechanisms of microbial metal sulfide oxidation – part A}, author={Mario Vera and Axel Schippers and
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Progress has been made in understanding and developing bioleaching of copper from primary copper sulfide minerals, chalcopyrite, covellite, and enargite, which point to low oxidation–reduction potential in concert with thermophilic bacteria and archaea as a potential key to the leaching of these minerals. This review presents developments and applications in
More2023年5月22日 Optimizing these parameters improves yields and encourages the wider application of bioleaching. Here, we review the microbial diversity and specific mechanisms of bioleaching for ... Progress in bioleaching: part B, applications of microbial processes by the minerals industries. Appl Microbiol Biotechnol 106:5913–5928. https://doi ...
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