Bioleaching of metals from wastes and low-grade sources by HCN-forming microorganisms

被引:46
作者
Faramarzi, Mohammad Ali [1 ]
Mogharabi-Manzari, Mehdi [1 ]
Brandl, Helmut [2 ]
机构
[1] Univ Tehran Med Sci, Fac Pharm, Dept Pharmaceut Biotechnol, POB 14155-6451, Tehran 1417614411, Iran
[2] Univ Zurich, Inst Evolutionary Biol & Environm Studies, Winterthurerstr 190, CH-8057 Zurich, Switzerland
来源
HYDROMETALLURGY | 2020年 / 191卷
关键词
Bioleaching; Biocyanidation; Metal recovery; Electronic wastes; Cyanogenic microorganisms; PRINTED-CIRCUIT BOARDS; MICROBIAL CYANIDE PRODUCTION; AMINO-ACID OXIDASE; HYDROGEN-CYANIDE; CHROMOBACTERIUM-VIOLACEUM; PSEUDOMONAS-AERUGINOSA; ASPERGILLUS-NIGER; CYANOGENIC GLUCOSIDES; NITRATE REDUCTASE; ELECTRONIC WASTE;
D O I
10.1016/j.hydromet.2019.105228
中图分类号
TF [冶金工业];
学科分类号
0806 ;
摘要
Microbial leaching via biocyanidation process enables efficient extraction of precious metals from low-grade ores and increases attention in mineral industries for applying green and environmentally friendly leaching methods. Microbial cyanidation can be applied in cyanidation process mobilizing precious metals from ores and scraps. Biological solubilization processes also recover metals from secondary raw materials such as e-wastes, car catalysts, coins, etc. In comparison with conventional technologies, biomobilization is associated with advantages including simple operation, reduced cost, and less environmental risks. This review was performed to describe a perspective on metal biocyanidation by applying cyanogenic microorganisms. Factors influencing yield of biocyanidation and electrochemical approaches of metal recovery were discussed. This study also addresses future advances of industrial applications of microbial mobilization of some metals as soluble cyanide complex from secondary resources.
引用
收藏
页数:11
相关论文
共 159 条
[91]   Catalytic effects of activated carbon and surfactants on bioleaching of cobalt ore [J].
Liu, Wei ;
Yang, Hong-ying ;
Song, Yan ;
Tong, Lin-lin .
HYDROMETALLURGY, 2015, 152 :69-75
[92]   PRODUCTION OF HYDROCYANIC ACID BY BACTERIA [J].
LORCK, H .
PHYSIOLOGIA PLANTARUM, 1948, 1 (02) :142-146
[93]  
LORIMER GH, 1974, J BIOL CHEM, V249, P6074
[94]   PEPTIDE SYNTHESIS FROM HYDROGEN CYANIDE AND WATER [J].
MATTHEWS, CN ;
MOSER, RE .
NATURE, 1967, 215 (5107) :1230-+
[95]   ORIGIN OF PROTEINS - HETEROPOLYPEPTIDES FROM HYDROGEN-CYANIDE AND WATER [J].
MATTHEWS, CN .
ORIGINS OF LIFE AND EVOLUTION OF THE BIOSPHERE, 1975, 6 (1-2) :155-162
[96]   Biogenic Cyanide Production Promotes Dissolution of Gold Nanoparticles in Soil [J].
McGivney, Eric ;
Gao, Xiaoyu ;
Liu, Yijing ;
Lowry, Gregory V. ;
Casman, Elizabeth ;
Gregory, Kelvin B. ;
VanBriesen, Jeanne M. ;
Avellan, Astrid .
ENVIRONMENTAL SCIENCE & TECHNOLOGY, 2019, 53 (03) :1287-1295
[97]   CYANIDE FORMATION BY CHROMOBACTERIUM VIOLACEUM [J].
MICHAELS, R ;
CORPE, WA .
JOURNAL OF BACTERIOLOGY, 1965, 89 (01) :106-&
[98]   HETEROPOLYPEPTIDES FROM POLY-ALPHA-CYANOGLYCINE AND HYDROGEN-CYANIDE - MODEL FOR ORIGIN OF PROTEINS [J].
MINARD, R ;
YANG, W ;
VARMA, P ;
NELSON, J ;
MATTHEWS, C .
SCIENCE, 1975, 190 (4212) :387-389
[99]   Bioleaching of vanadium rich spent refinery catalysts using sulfur oxidizing lithotrophs [J].
Mishra, D. ;
Kim, D. J. ;
Ralph, D. E. ;
Ahm, J. G. ;
Rhee, Y. H. .
HYDROMETALLURGY, 2007, 88 (1-4) :202-209
[100]   Bioleaching: A microbial process of metal recovery; A review [J].
Mishra, D ;
Kim, DJ ;
Ahn, JG ;
Rhee, YH .
METALS AND MATERIALS INTERNATIONAL, 2005, 11 (03) :249-256
567891011121314