Bioleaching and electrochemical properties of chalcopyrite by pure and mixed culture of Leptospirillum ferriphilum and Acidthiobacillus thiooxidans 被引量：7

Bioleaching and electrochemical properties of chalcopyrite by pure and mixed culture of Leptospirillum ferriphilum and Acidthiobacillus thiooxidans

下载PDF

导出

摘要 The bioleaching of chalcopyrite was investigated using a pure and mixed culture consisting of iron-oxidizing Leptospirillum ferriphilum （L. ferriphilum） and sulfur-oxidizing Acidthiobacillus thiooxidans （.4. thiooxidans）. The electrochemical tests were conducted to investigate the bioleaching behavior of chalcopyrite by various bacteria. Bioleaching efficiency of chalcopyrite in mixed culture is higher than that in the pure culture of L.ferriphilum alone. The iron-oxidizing L.ferriphilum plays a dominant role during bioleaching of chalcopyrite in the mixed culture of L. ferriphilum and A. thiooxidans. During bioleaching, certain values of redox potential are beneficial to the decomposition of chalcopyrite. Jarosite and sulfur are observed as products of bioleaching. The addition of A. thiooxidans during leaching by L. ferriphilum can change the electrochemical control steps of leaching. The corrosion current density is substantially promoted in the culture involving bacteria, especially in the mixed culture. The bioleaching of chalcopyrite was investigated using a pure and mixed culture consisting of iron-oxidizing Leptospirillum ferriphilum (L. ferriphilum) and sulfur-oxidizing Acidthiobacillus thiooxidans (A. thiooxidans). The electrochemical tests were conducted to investigate the bioleaching behavior of chalcopyrite by various bacteria. Bioleaching efficiency of chalcopyrite in mixed culture is higher than that in the pure culture of L. ferriphilum alone. The iron-oxidizing L. ferriphilum plays a dominant role during bioleaching of chalcopyrite in the mixed culture of L. ferriphilum and A. thiooxidans. During bioleaching, certain values of redox potential are beneficial to the decomposition of chalcopyrite. Jarosite and sulfur are observed as products of bioleaching. The addition of A. thiooxidans during leaching by L. ferriphilum can change the electrochemical control steps of leaching. The corrosion current density is substantially promoted in the culture involving bacteria, especially in the mixed culture.

作者顾帼华胡可婷李双棵

机构地区 School of Minerals Processing and Bioengineering

出处《Journal of Central South University》 SCIE EI CAS 2013年第1期178-183,共6页 中南大学学报（英文版）

基金 Project(2010CB630903) supported by the National Basic Research Program of China

关键词 CHALCOPYRITE BIOLEACHING ELECTROCHEMISTRY Leptospirillumferriphilum Acidthiobacillus thiooxidans 生物浸出混合培养电化学性能铁氧化黄铜矿螺旋氧化硫硫杆菌氧化还原电位

分类号 TD952 [矿业工程—选矿]

引文网络
相关文献

参考文献17

1SENANAYAKE G. A review of chloride assisted copper sulfide leaching by oxygenated sulfuric acid and mechanistic considerations [J]. Hydrometallurgy, 2009, 98(1/2): 21-32.
2OLSON G J, BRIERLEY J A, BRIERLEY C L. Bioleaching review. Part B: Progress in bioleaching: Applications of microbial processes by the minerals industries [J]. Appl Microbiol Biot, 2003, 63(3): 249-257.
3LI J, KAWASHIMA N, KAPLUN N, ABSOLON V J, GERSON A. R. Chalcopyrite leaching: The rate controlling factors [J]. Geochimica et Cosmochimica Acta, 2010, 74(10): 2881-2893.
4CORAM N J, RAWLINGS D E. Molecular relationship between two groups of the genus leptospirillum and The finding that leptospirillum ferriphilum sp. nov. dominates south African commercial biooxidation tanks that operate at 40 ℃ [J]. Appl Environ Microb, 2002, 68(2): 838-845.
5JOHNSON D B, OKIBE N, GERICKE M, HALLBERG K B. Enumeration and characterization of acidophilic microorganisms isolated from a pilot plant stirred-tank bioleaching operation [J]. Appl Environ Microb, 2003, 69(4): 1936-1943.
6GHAHREMANINZHAD A, ASSELIN E, DIXON D G. Electrochemical evaluation of the surface of chalcopyrite during dissolution in sulfuric acid solution [J]. Electrochim Acta, 2010, 55(18): 5041-5056.
7CHEN M. A, ZENG W M, QIU G. Z, ZHOU H B. Electrochemical behaviour of massive chalcopyrite electrodes bioleached by moderately thermophilic microorganisms at 48 ℃ [J]. Hydro- metallurgy, 2011, 105(3/4): 259-263.
8G A, ASSELIN E, DIXON D G. Electrochemical evaluation of the surface of chalcopyrite during dissolution in sulfuric acid solution [J]. Electrochimica Acta, 2010, 55(18): 5041-5056.
9SOKIC M D, MATKOVIC V L, MARKOVIC V L, STRBAC D, ZIVKOVIC T. Passivation of chalcopyrite during the leaching with sulphuric acid solution in presence of sodium nitrate [J]. Hem Ind, 2010, 64(4): 343-350.
10BALLESTER A, CORDOBA E M, MUNOZ J A, BLAZQUEZ M L, GONZALEZ E Passivation of chalcopyrite during its chemical leaching with ferric ion at 68 ℃ [J]. Miner Eng, 2009, 22(3): 229-235.

同被引文献64

1齐亚兵.电子废弃物中稀贵金属回收技术的发展现状及研究进展[J].材料导报,2022,36(S01):436-443. 被引量：18
2孙家寿.微波在矿物化学处理中的应用[J].湖南有色金属,2001,17(6):9-10. 被引量：3
3Xu, Bin, Zhong, Hong, Jiang, Tao.An investigation of oxygen pressure acid leaching of Gacun complex Cu-Pb bulk concentrate[J].Rare Metals,2012,31(1):96-101. 被引量：8
4蔡超君,华一新,梁铎强.硫化铜精矿加碳酸钙焙烧表观动力学研究[J].有色金属（冶炼部分）,2004(3):2-5. 被引量：5
5宋宁,刘纯鹏.黄铜矿加硫焙烧提铜新工艺[J].有色金属,2005,57(2):84-87. 被引量：7
6宋宁,严继康,杜景红.黄铜矿硫化焙烧相变浸出的研究[J].有色金属（冶炼部分）,2005(3):10-13. 被引量：4
7母育锋,杨显万,何蔼平.用FeCl_3浸出硫化铜精矿的研究[J].昆明工学院学报,1995,20(5):11-15. 被引量：2
8石绍渊,方兆珩.Marmatite bioleaching with moderately thermoacidophilic bacterial strain and mineral analyses of solid residues[J].中国有色金属学会会刊：英文版,2005,15(5):1150-1155. 被引量：3
9邹平,张文彬,王吉坤,文书明.硫杆菌的耐高砷诱变及对高砷铜精矿的浸出[J].金属矿山,2005,34(12):21-25. 被引量：6
10宋宁,杜景红,杨斌,陈为亮,戴永年.加硫焙烧黄铜矿的溶浸过程及其动力学分析[J].有色金属,2006,58(2):67-70. 被引量：4

引证文献7

1周娟,廖亚龙,李冰洁,黄斐荣.多金属复杂硫化铜矿中有价金属的分离研究现状与进展[J].化工进展,2015,34(1):252-257. 被引量：16
2顾帼华,熊先学,胡可婷,李双棵,王重庆.Stepwise dissolution of chalcopyrite bioleaching by thermophile A.manzaensis and mesophile L. ferriphilum[J].Journal of Central South University,2015,22(10):3751-3759. 被引量：2
3熊先学,顾帼华,班进荣,李双棵.Bioleaching and electrochemical property of marmatite by Sulfobacillus thermosulfidooxidans[J].Transactions of Nonferrous Metals Society of China,2015,25(9):3103-3110. 被引量：2
4牛志睿,祁乙浩,史宁,刘强.胞外多聚物在废旧锌锰电池生物浸提中的作用机制[J].环境科学学报,2017,37(10):3837-3844. 被引量：3
5廖亚龙,周娟,黄斐荣,王祎洋.响应曲面法优化复杂硫化铜矿选择性浸出工艺[J].中国有色金属学报,2016,26(1):164-172. 被引量：18
6YANG Cong-ren,JIAO Fen,QIN Wen-qing.Leaching of chalcopyrite: An emphasis on effect of copper and iron ions[J].Journal of Central South University,2018,25(10):2380-2386. 被引量：5
7刘赟,周豪,邵诗宇,黄敏,张雯,陈祝,邱冠周,赵红波,申丽.多金属生物冶金协同体系的构建:现状与展望[J].有色金属(冶炼部分),2025(11):28-41.

二级引证文献45

1李兰韵,谢刚,闫书阳.银铟在复杂硫化锌精矿加压酸浸中的行为[J].过程工程学报,2015,15(5):795-800. 被引量：2
2袁帅,刘杰,李艳军,张淑敏,王志远.内蒙古某铜锡硫化矿石选矿试验[J].金属矿山,2016,45(2):87-90. 被引量：9
3刘杰,袁帅,李艳军,张淑敏,王志远.内蒙古某铜锡多金属矿工艺矿物学及分离研究[J].矿产保护与利用,2016,36(1):46-50. 被引量：1
4杨大锦.2015年云南冶金年评[J].云南冶金,2016,45(2):54-80. 被引量：1
5李旭辉,吴师京,陈军,李剑鹭.江西某铜多金属硫化矿石选矿试验研究[J].有色金属（选矿部分）,2016(6):11-14. 被引量：2
6Camila CASTRO,Edgardo R.DONATI.Improving zinc recovery by thermoacidophilic archaeon Acidianus copahuensis using tetrathionate[J].Transactions of Nonferrous Metals Society of China,2016,26(11):3004-3014. 被引量：2
7赵敏捷,方建军,张琳,代宗,尧章伟.浮选试验中灰色理论的应用研究[J].人工晶体学报,2017,46(2):374-380. 被引量：1
8杨大锦.2016年云南冶金年评[J].云南冶金,2017,46(2):58-78.
9赵敏捷,方建军,张铁民,张琳.响应曲面法优化某氧化铜矿硫化浮选[J].过程工程学报,2017,17(3):532-538. 被引量：16
10甘晓文,王军,赵红波,胡明皓,陶浪,邱冠周.Fe^(3+)对黄铜矿与铁闪锌矿分步浸出的影响机制[J].矿冶工程,2017,37(1):77-80. 被引量：6

1王军,朱珊,张雁生,赵红波,胡明皓,杨聪仁,覃文庆,邱冠周.Bioleaching of low-grade copper sulfide ores by Acidithiobacillus ferrooxidans and Acidithiobacillus thiooxidans[J].Journal of Central South University,2014,21(2):728-734. 被引量：9
2Muqing Qiu,Shuiying Xiong,Weimin Zhang.Efficacy of chalcopyrite bioleaching using a pure and a mixed bacterium[J].Journal of University of Science and Technology Beijing,2006,13(1):7-10. 被引量：8
3林其壬.铁氧体粘结永磁[J].粉末冶金技术,1991,9(4):228-232.
4夏乐先,彭安安,郭雪,邱冠周,柳建设.两株不同来源的嗜酸氧化亚铁硫杆菌对黄铜矿浸出的研究[J].现代生物医学进展,2009,9(6):1068-1070. 被引量：2
5用嗜温菌浸出复杂的镍铁精矿[J].黄金,2009,30(6):59-59.
6Dkeith,EwartProf,Robert,刘斌.中耐温混合培养自养细菌的分离及特征—在难浸金精矿氧化中的应用[J].新疆有色金属,1994,0(2):49-51.
7刘艳.用嗜温细菌从废电视电路板中浸出铜[J].湿法冶金,2013,32(6):370-370.
8马保中,王成彦,杨玮娇,魏永刚,王华.云南镁质氧化镍矿煤基金属化还原过程及优化[J].稀有金属,2017,41(4):429-436. 被引量：5
9曾伟民,周洪波,刘学端,邱冠周.Preservation of moderately thermophilic culture by freeze drying and frozen preservation way and effect on subsequent bioleaching of chalcopyrite[J].Transactions of Nonferrous Metals Society of China,2010,20(5):882-887. 被引量：2
10P·德哈格斯,周廷熙,李孜.用混合培养的新型嗜高温菌连续生物浸出黄铜矿[J].国外金属矿选矿,2003,40(10):36-40. 被引量：1

Journal of Central South University

2013年第1期

浏览历史

内容加载中请稍等...

Bioleaching and electrochemical properties of chalcopyrite by pure and mixed culture of Leptospirillum ferriphilum and Acidthiobacillus thiooxidans 被引量：7

参考文献17

同被引文献64

引证文献7

二级引证文献45

相关作者

相关机构

相关主题

浏览历史