在生物浸出过程中,不同类型的浸矿微生物相互影响、相互促进,提高各自的代谢活动,从而提高金属浸出率。综述浸矿微生物协同作用的类型铁氧化菌与硫氧化菌、自养菌与异养菌、吸附菌与游离菌以及常温菌与高温菌的协同作用以及它们之间的作用机制,并分析协同作用的研究思路及生物浸出过程中矿物的溶解途径,重点介绍协同作用的研究方法和关键代谢产物及其作用。
During bioleaching, different types of mixed bacteria interact and cooperate with each other to improve their metabolic activities and increase the metal extracting rate. The synergy types of microorganisms, such as the synergy of iron-oxidizing bacteria and sulfur-oxidizing bacteria, the synergy of autotrophic bacteria and heterotrophic bacteria, the synergy of adsorbed bacteria and free bacteria and the synergy of mesophilic bacteria and thermophilic bacteria and the mechanism of their interactions were reviewed. And the synergy and mineral dissolution ways during bioleaching were discussed, the research methods of the synergy and the roles of important metabolites were discussed.
参考文献
| [1] | Rawlings DE .Heavy metal mining using microbes [Review][J].Annual Review of Microbiology,2002(0):65-91. |
| [2] | J.A. Brierley;C.L. Brierley .Present and future commercial applications of biohydrometallurgy[J].Hydrometallurgy,2001(2/3):233-239. |
| [3] | EECLESTON M;KELLY D P .Oxidation kinetics and chemostat growth of Thiobacillus ferrooxidans on trathionate and thiosulfate[J].Journal of Bacteriology,1978,134(03):718-727. |
| [4] | LIZAMA H M;SUZUKI I .Bacterial leaching of a sulphide ore by Thiobacillus ferrooxidans and Thiobacillus thiooxidans:Ⅰ. Shake flask studies[J].Biotechnology and Bioengineering,1988,32(01):110-116. |
| [5] | Rohan Jain,Ashish Pathak,T. R. Sreekrishnan,M. G. Dastidar.Autoheated thermophilic aerobic sludge digestion and metal bioleaching in a two-stage reactor system[J].环境科学学报(英文版),2010(02):230-236. |
| [6] | A. Giaveno;E. Donati .Bioleaching of heazelwoodite by Thiobacillus spp[J].Process biochemistry,2001(10):955-962. |
| [7] | XIA Le-xian,LIU Jian-she,XIAO Li,ZENG Jia,LI Ban-mei,GENG Mei-mei,QIU Guan-zhou.Single and cooperative bioleaching of sphalerite by two kinds of bacteria——Acidithiobacillus ferriooxidans and Acidithiobacillus thiooxidans[J].中国有色金属学会会刊(英文版),2008(01):190-195. |
| [8] | Gurung A;Chakraborty R .The role of Acidithiobacillus ferrooxidans in alleviating the inhibitory effect of thiosulfate on the growth of acidophilic Acidiphilium species isolated from acid mine drainage samples from Garubathan, India.[J].Canadian journal of microbiology,2009(9):1040-1048. |
| [9] | Liu H;Yin H;Dai Y;Dai Z;Liu Y;Li Q;Jiang H;Liu X .The co-culture of Acidithiobacillus ferrooxidans and Acidiphilium acidophilum enhances the growth, iron oxidation, and CO2 fixation.[J].Archives of microbiology,2011(12):857-866. |
| [10] | GAUTIER V;ESCOBAR B;VARGAS T .Cooperative action of attached and planktonic cells during bioleaching of chalcopyrite with Sulfolobus metallicus at 70℃[J].HYDROMETALLURGY,2008,94(1/4):121-126. |
| [11] | 邹平 .中高温菌组合浸出黄铜矿及细菌种群结构和演替规律研究[D].昆明:昆明理工大学,2008. |
| [12] | Zhiguo He;Zhen Yin;Xin Wang.Microbial community changes during the process of pyrite bioleaching[J].Hydrometallurgy,2012:81-89. |
| [13] | Zhou HB;Zeng WM;Yang ZF;Xie YJ;Qiu GZ .Bioleaching of chalcopyrite concentrate by a moderately thermophilic culture in a stirred tank reactor[J].Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies,2009(2):515-520. |
| [14] | Zhang RB;Wei MM;Ji HG;Chen XH;Qiu GZ;Zhou HB .Application of real-time PCR to monitor population dynamics of defined mixed cultures of moderate thermophiles involved in bioleaching of chalcopyrite[J].Applied Microbiology and Biotechnology,2009(6):1161-1168. |
| [15] | 申丽,刘学端,邱冠周.基于基因芯片对微生物基因功能与群落结构分析的硫化矿生物浸出分析[J].生物工程学报,2008(06):968-974. |
| [16] | Gilchrist DA;Fargo DC;Adelman K .Using ChIP-chip and ChIP-seq to study the regulation of gene expression: genome-wide localization studies reveal widespread regulation of transcription elongation.[J].Methods: A Companion to Methods in Enzymology,2009(4):398-408. |
| [17] | QIU Guan-zhou,LIU Xue-duan,ZHOU Hong-bo.Microbial community structure and function in sulfide ore bioleaching systems[J].中国有色金属学会会刊(英文版),2008(06):1295-1301. |
| [18] | Yin H;Cao L;Qiu G;Wang D;Kellogg L;Zhou J;Dai Z;Liu X .Development and evaluation of 50-mer oligonucleotide arrays for detecting microbial populations in Acid Mine Drainages and bioleaching systems[J].Journal of Microbiological Methods,2007(1):165-178. |
| [19] | Yin, H.;Zeng, W.;Liang, Y.;Liu, Y.;Baba, N.;Qiu, G.;Shen, L.;Fu, X.;Liu, X. .The effect of the introduction of exogenous strain Acidithiobacillus thiooxidans A01 on functional gene expression, structure and function of indigenous consortium during pyrite bioleaching[J].Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies,2011(17):8092-8098. |
| [20] | GUIBAUD G;COMTE S;BORDAS F;DUPUY S BAUDU M .Comparison of complexation potential of extracellular polymeric substances(EPS),extracted from activated sludges and produced by pure bacteria strains for cadmium,lead and nickel[J].CHEMOSPHERE,2005,59(05):629-638. |
| [21] | HARNEIT K;GOKSEL A;KOCK D;KLOCK J H GEHRKE T SAND W .Adhesion to metal sulfide surfaces by cells of Acidithiobacillus ferrooxidans,Acidithiobacillus thiooxidans and Leptospirillum ferrooxidans[J].HYDROMETALLURGY,2006,83(1/4):245-254. |
| [22] | 曾伟民 .黄铜矿生物浸出过程中钝化膜的形成机制及其消除方法探讨[D].中南大学,2011. |
| [23] | Beech WB;Sunner J .Biocorrosion: towards understanding interactions between biofilms and metals [Review][J].Current Opinion in Biotechnology,2004(3):181-186. |
| [24] | K. Kinzler;T. Gehrke;J. Telegdi .Bioleaching--a result of interfacial processes caused by extracellular polymeric substances (EPS)[J].Hydrometallurgy,2003(1/2):83-88. |
| [25] | Sand W;Gehrke T .Extracellular polymeric substances mediate bioleaching/biocorrosion via interfacial processes involving iron(III) ions and acidophilic bacteria.[J].Research in Microbiology,2006(1):49-56. |
| [26] | P.Rusin.用生物还原法提高难处理氧化矿中银和其他金属的浸出率[J].湿法冶金,1995(01):36. |
| [27] | THOMAS G;INGRAHAM T R;MACDONALD R J C .Kinetics of dissolution of synthetic digenite and chalcocite in aqueous acidic ferric sulphate solutions[J].Canadian Metallurgical Quarterly,1967,6(03):281-292. |
| [28] | 刘纯鹏.铜的湿法冶金物理化学[M].北京:中国科学技术出版社,1991:2. |
| [29] | 黄国智,李长根,崔洪山.斑铜矿与磨矿介质之间的电化学作用及其对可浮性的影响[J].国外金属矿选矿,2009(01):49-54. |
| [30] | Dora Nava;Ignacio Gonzalez .Electrochemical characterization of chemical species formed during the electrochemical treatment of chalcopyrite in sulfuric acid[J].Electrochimica Acta,2006(25):5295-5303. |
| [31] | Yuri L. Mikhlin;Yevgeny V. Tomashevich;Igor P. Asanov;Alexander V. Okotrub;Vladimir A. Varnek;Denis V. Vyalikh .Spectroscopic and electrochemical characterization of the surface layers of chalcopyrite (CuFeS_2) reacted in acidic solutions[J].Applied Surface Science: A Journal Devoted to the Properties of Interfaces in Relation to the Synthesis and Behaviour of Materials,2004(1/4):395-409. |
| [32] | DUTRIZAC J E .The kinetics of dissolution of chalcopyrite in ferric ion media[J].Metallurgical and Materials Transactions B:Process Metallurgy and Materials Processing Science,1978,9(03):431-439. |
| [33] | SHUEY R T.Semiconducting ore minerals,developments in economic geology series[M].New York:Elsevier Scientific Publishing company,1975:242. |
| [34] | Robert G. Acres;Sarah L Harmer;David A. Beattie .Synchrotron XPS studies of solution exposed chalcopyrite, bornite, and heterogeneous chalcopyrite with bornite[J].International Journal of Mineral Processing,2010(1/2):43-51. |
| [35] | Robert G. Acres;Sarah L. Harmer;David A. Beattie .Synchrotron XPS, NEXAFS, and ToF-SIMS studies of solution exposed chalcopyrite and heterogeneous chalcopyrite with pyrite[J].Minerals Engineering,2010(11/13):928-936. |
| [36] | Lee MS;Nicol MJ;Basson P .Cathodic processes in the leaching and electrochemistry of covellite in mixed sulfate-chloride media[J].Journal of Applied Electrochemistry,2008(3):363-369. |
| [37] | Parker GK;Woods R;Hope GA .Raman investigation of chalcopyrite oxidation[J].Colloids and Surfaces, A. Physicochemical and Engineering Aspects,2008(1/3):160-168. |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%