电子废弃物中生物冶金技术的研究进展

Abstract

Abstract:

Electric and electronic wastes are one of the important problems of environmental pollution in modern times, this paper introduces research progress of biological metallurgical technology in extracting metals from ores and electric and electronic wastes at home and abroad.The traditional pyrometallurgy and metallurgical technology have low recovery rate,complex recovery process,high energy consumption,causing water pollution.In comparison, biological metallurgy technology is a method of extracting metals from solid mineral to the solution by metabolism of microorganisms.It can be used for extracting metals from the low grade of ore and electric and electronic waste, meeting the current win-win economic and environmental requirements of the times due to advantages of low cost, high recovery efficiency,low energy consumption,non-toxic and harmless,environment friendly,etc.Today,more and more attention are paid to the environmental protection,using biological technology to extract the metals from electric and electronic waste is one of the environmental technology with great potential.

Key words: Biological metallurgy technology, Ore, Electric and electronic wastes, Metal

CLC Number:

TF831

LI Jingying,XU Xiuli. Research Progress of Biological Metallurgical Technology from the Electric and Electronic Wastes[J].J4, 2010, 18(6): 58-62.

References

［1］钮因键，周吉奎.非硫化矿生物湿法冶金评述［J］. 铝镁通讯，2005，（3）：1- 5.
［2］宋国勇，许涛，装晓鸣.电子废弃物的回收与利用［J］.辽宁城乡环境技术，2003，23（5）：50- 52.
［3］洪大剑，张德华，邓杰.废印刷电路板的回收处理技术［J］.云南化工，2006，33（1）：31- 34.
［4］木子.大有发展前途的生物冶金学［J］. 金属世界，2007，（3）：55.
［5］彭艳平，余水静.我国生物冶金研究的发展概况［J］.矿业快报，2006，（12）：8- 10.
［6］杨显万，邱定藩.湿法冶金［M］. 北京：冶金工业出版社，1998：281- 371.
［7］蔡显弟.生物湿法冶金技术对世界矿业可持续发展的贡献［J］.世界有色金属，2008，（10）：35- 37.
［8］周爱东，杨红晓.金的生物冶金发展［J］.有色矿冶，2005，21（3）：25- 27
［9］李一夫，刘红湘，戴永年.生物技术在湿法冶金中的应用［J］.湿法冶金，2006，25（4）：169- 171.
［10］温建康，阮仁满，孙雪南.金川低品位镍矿资源微生物浸出研究［J］.矿冶，2002，11（1）：55- 58.
［11］宫磊，徐晓军.物理诱变氧化亚铁硫杆菌及浸出低品位黄铜矿的研究［J］.金属矿山，2005，（8）：39- 41.
［12］王方俊.黄金工业的生物冶金术［J］.中国创业投资与高科技，2005，（10）：23- 25.
［13］常江.生物氧化提取黄金技术的发展现状及其应用［J］.全球科技经济瞭望，2000，（8）：61- 62.
［14］王康林，汪模辉，蒋金龙.难处理金矿石的细菌氧化预处理研究现状［J］.黄金科学技术，2001，9（1）：19- 23.
［15］崔丙贵，许立中，王海东.生物氧化—氰化炭浸提金工艺研究及工程化实践［J］.黄金，2009，30（5）：33- 37.
［16］杨洪英，范金，崔日成，等.难处理高砷金矿的细菌氧化一提金研究［J］.贵金属，2009，30（3）：1- 4.
［17］高金昌.生物冶金技术在黄金工业生产中的应用现状及发展趋势［J］.黄金，2008，29（10）：36- 40.
［18］刘政，杨绍斌，陶敏慧，等.多菌种混养预氧化难浸金矿效果的研究［J］.贵金属，2008，3（29）：22- 25.
［19］Liu Yueying,Fu Jinkun,Hu Hongbo,et al.Properties an Characterization of Au3+- adsorption byMycelial Waste of Streptomyces Aureofaciences［J］.Chinese Science Bulletin,2001,46（20）:1709- 1712.
［20］Liu Yueying,Fu Jinkun,Luo Xuefeng,et al.Transmission Electron Microscopic Observation of Au3+- biosorption by Saccharomyces CerevisiaeWaste Biomass［J］.Journal of Chinese Electron Microscopy Society,2000,19（5） :695- 698.
［21］秦育红.细菌氧化广西贵港六梅金矿的研究［J］.太原理工大学学报，2002，33（3）：12.
［22］徐晓军，孟运生.氧化亚轶硫杆菌紫外线诱变后对低品位黄铜矿的浸出［J］.矿冶工程，2005，25（1）：34- 36.
［23］Mishra D,Kim D J,Ahn J G,et al.Bioleaching: A Microbial Process of Metal Recovery，A Review［J］.Metals and Materials，2005，11（3）：249- 256.
［24］卡.,ГИ，邓庆球.采用生物技术从矿石和选矿产品中回收金的方法［J］.国外金属矿山，1997，22（6）：40- 43.
［25］李学亚，叶茜.微生物冶金技术及其应用［J］.矿业工程，2006，4（2）：49- 50.
［26］Pethkar A V,Paknikar K M.Recovery of Gold from Solutions Using Cladosporium Cladosporioides Biomass Beads［J］.Biotechnology, 1998,63:121- l36.
［27］Savvaidis I.Recovery of Gold from Thiourea Solutions Using Microorganisms［J］.BioMetals,1998,11:145- 151.
［28］R S 多布森，张兴仁，李孜.贵金属精炼厂废水的生物处理［J］.国外金属矿选矿，2008，（5）：33- 42.
［29］徐家振，金哲男.重贵金属冶金中的微生物技术［J］.有色矿冶，2002，18（1）：31- 34.
［30］ Climo M,Watling H R,Bronswijk W V.Biooxidation as Pre- Treatment for a Telluride- Rich Refractory Gold Concentrate［J］.Minerals Engineering,2000,13（12） :1219- 1229.
［31］Olson G J,Brierley J A,Brierley C I.Bioleaching Review Part B:Progress in Bioleaching:Applications of Microbial Processes by theMinerals Industries［J］.Appl Microbiol Biotechnol,2003,63（3）:249- 257.
［32］Zhou Yihui,Qiu Keqiang.A New Technology for Recycling Materials from Waste Printed Circuit Boards［J］.Journal of HazardousMaterials,2010,175: 823- 828.
［33］Ilyas S,Anwar MA,Niazi SB,et al.Bioleaching ofMetals from Electronic Scrap by Moderately Thermophilic Acidophilic Bacteria［J］.Hydrometallurgy,2007,88：180- 188.
［34］Wang Jingwei,Bai Jianfeng,Xu Jinqiu,et al.Bioleaching of Metals from Printed Wire Boards by Acidithiobacillus Ferrooxidans and Acidithiobacillus thiooxidans and their Mixture ［J］.Journal of Hazardous Materials,2009,172:1100- 1105.
［35］Brandl H,Bosshard R,Wegmann M.Computer- munchingMicrobes:Metal Leaching from Electronic Scrap by Bacteria and Fungi［J］.Hydrometallurgy,2001,59（2- 3）：319- 326.
［36］Faramarzi MA,Stagars M,Pensini E,et al.Metal Solubilization from Metal- containing Solid Materials by Cyanogenic Chromobacterium Violaceum［J］.Biotechnology,2004,113（1- 3）：321- 326.
［37］林晓.电子废料中的贵金属回收技术进展［J］.现代化工，2006，26（6）：12- 16.
［38］王颖慧.冶金新技术的应用领域及展望［J］. 企业技术开发，2009，（5）：73.

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Research Progress of Biological Metallurgical Technology from the Electric and Electronic Wastes

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