氧化还原电位在黄铜矿生物湿法冶金中的作用及其调控:综述(英文)
发布时间:2022-09-30 16:14
黄铜矿是一种重要的铜资源,但由于黄铜矿晶格能较高,溶解动力学较低,导致其在湿法冶金过程中浸出效率不理想。为了解决这一问题进行了一系列新技术的研究,包括对高效菌株的选育,抑制在矿物表面钝化膜的生成,以及控制溶液氧化还原电位在最佳区间内。目前,对前两个技术的研究工作已有大量的总结,而对于控制氧化还原电位这一过程的工作总结较少。本文通过研究近年来的相关工作,介绍了铜湿法冶金过程中溶液氧化还原电位的定义、作用以及对氧化还原电位的控制等相关内容。
【文章页数】:16 页
【文章目录】:
1 Introduction
2 Definition of redox potential
3 Role of redox potential in hydrometallurgy of chalcopyrite
3.1 Thermodynamic calculation
3.2 Promoting formation of intermediate products
3.3 Inhibiting formation of passivation layer
4 Maintenance of redox potential
4.1 Using an electro-bioreactor
4.2 Limiting oxygen concentration
4.3 Adding different ions
4.4 Adding chemical reagents like potassium permanganate or H2O2
4.5 Adding ferric reductant
4.6 Adding iron removal agent
5 Conclusions and prospect
【参考文献】:
期刊论文
[1]温度诱导相变对黄铜矿生物浸出的影响(英文)[J]. 常可欣,张雁生,张家明,李腾飞,王军,覃文庆. Transactions of Nonferrous Metals Society of China. 2019(10)
[2]Stepwise dissolution of chalcopyrite bioleaching by thermophile A.manzaensis and mesophile L. ferriphilum[J]. 顾帼华,熊先学,胡可婷,李双棵,王重庆. Journal of Central South University. 2015(10)
[3]Bioleaching of chalcopyrite and bornite by moderately thermophilic bacteria: an emphasis on their interactions[J]. Hong-bo Zhao,Jun Wang,Xiao-wen Gan,Wen-qing Qin,Ming-hao Hu,Guan-zhou Qiu. International Journal of Minerals Metallurgy and Materials. 2015(08)
[4]Adsorption and leaching of chalcopyrite by Sulfolobus metallicus YN24 cultured in the distinct energy sources[J]. Yu-ting Liang,Shan Zhu,Jun Wang,Chen-bing Ai,Wen-qing Qin. International Journal of Minerals Metallurgy and Materials. 2015(06)
[5]Control of redox potential by oxygen limitation in selective bioleaching of chalcocite and pyrite[J]. Biao Wu,Jian-Kang Wen,Bo-Wei Chen,Guo-Cheng Yao,Dian-Zuo Wang. Rare Metals. 2014(05)
[6]Comparative study on the passivation layers of copper sulphide minerals during bioleaching[J]. Kai-bin Fu 1,2),Hai Lin 1),Xiao-lan Mo 1),Han Wang 1),Hong-wei Wen 1),and Zi-long Wen 1) 1) School of Civil and Environmental Engineering,University of Science and Technology Beijing,Beijing 100083,China 2) Key Laboratory of Solid Waste Treatment and Resource Recycle(Ministry of Education),Southwest University of Science and Technology,Mianyang 621010,China. International Journal of Minerals Metallurgy and Materials. 2012(10)
本文编号:3683868
【文章页数】:16 页
【文章目录】:
1 Introduction
2 Definition of redox potential
3 Role of redox potential in hydrometallurgy of chalcopyrite
3.1 Thermodynamic calculation
3.2 Promoting formation of intermediate products
3.3 Inhibiting formation of passivation layer
4 Maintenance of redox potential
4.1 Using an electro-bioreactor
4.2 Limiting oxygen concentration
4.3 Adding different ions
4.4 Adding chemical reagents like potassium permanganate or H2O2
4.5 Adding ferric reductant
4.6 Adding iron removal agent
5 Conclusions and prospect
【参考文献】:
期刊论文
[1]温度诱导相变对黄铜矿生物浸出的影响(英文)[J]. 常可欣,张雁生,张家明,李腾飞,王军,覃文庆. Transactions of Nonferrous Metals Society of China. 2019(10)
[2]Stepwise dissolution of chalcopyrite bioleaching by thermophile A.manzaensis and mesophile L. ferriphilum[J]. 顾帼华,熊先学,胡可婷,李双棵,王重庆. Journal of Central South University. 2015(10)
[3]Bioleaching of chalcopyrite and bornite by moderately thermophilic bacteria: an emphasis on their interactions[J]. Hong-bo Zhao,Jun Wang,Xiao-wen Gan,Wen-qing Qin,Ming-hao Hu,Guan-zhou Qiu. International Journal of Minerals Metallurgy and Materials. 2015(08)
[4]Adsorption and leaching of chalcopyrite by Sulfolobus metallicus YN24 cultured in the distinct energy sources[J]. Yu-ting Liang,Shan Zhu,Jun Wang,Chen-bing Ai,Wen-qing Qin. International Journal of Minerals Metallurgy and Materials. 2015(06)
[5]Control of redox potential by oxygen limitation in selective bioleaching of chalcocite and pyrite[J]. Biao Wu,Jian-Kang Wen,Bo-Wei Chen,Guo-Cheng Yao,Dian-Zuo Wang. Rare Metals. 2014(05)
[6]Comparative study on the passivation layers of copper sulphide minerals during bioleaching[J]. Kai-bin Fu 1,2),Hai Lin 1),Xiao-lan Mo 1),Han Wang 1),Hong-wei Wen 1),and Zi-long Wen 1) 1) School of Civil and Environmental Engineering,University of Science and Technology Beijing,Beijing 100083,China 2) Key Laboratory of Solid Waste Treatment and Resource Recycle(Ministry of Education),Southwest University of Science and Technology,Mianyang 621010,China. International Journal of Minerals Metallurgy and Materials. 2012(10)
本文编号:3683868
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