阳离子胁迫下低品位硫化镍矿的氧化浸出行为(英文)
发布时间:2021-11-26 21:30
本文模拟研究了镁离子和钠离子胁迫对低品位硫化镍矿氧化浸出的影响。主要研究阳离子对有价值金属的浸出效率的影响以及含镍硫化矿石的电化学氧化行为。浸出试验结果表明,部分含镁脉石和含亚铁硫化物会优先溶解在浸出液中,浸出过程中Ni和Cu的浸出效率下降与Mg2+的浸出浓度增加相关性较大。电化学研究结果表明,低品位硫化镍矿的氧化浸出受中间产物氧化扩散的控制。Mg2+和Na+影响Fe3+/Fe2+电对和含硫物质的转化,这些阳离子易受硫化矿物表面阴离子吸引并定向粘附在金属硫化物表面荷负电的活性位点,从而增加界面电子转移的电化学活性,促进矿石与浸出介质之间的电子转移。通过比较Mg2+和Na+的作用,发现Mg2+通过促成致密钝化膜的形成,降低了金属矿物的浸出效率,对反应中间产物的氧化扩散不利,而Na+的不利影响往往是与优先被浸出的Mg2+和Fe3+协同作用引起。
【文章来源】:Journal of Central South University. 2020,27(11)EISCICSCD
【文章页数】:12 页
【文章目录】:
1 Introduction
2 Experimental
2.1 Materials
2.2 Oxidative leaching performance tests
2.3 Electrode and electrochemical measurements
3 Results and discussion
3.1 Mg2+and Na+stress on Ni,Cu,Fe,Mg leaching efficiencies
3.2 Mg2+and Na+stress on oxidation leaching reactions
3.3 Mg2+and Na+stress on oxidation leaching rate
3.4 Mg2+and Na+stress on oxidation leaching impedance
3.5 Mg2+and Na+stress on characterization of leaching residues
3.6 Roles of Mg2+and Na+in nickel sulfide ores oxidation leaching
4 Conclusions
Contributors
Conflict of interest
【参考文献】:
期刊论文
[1]中国有色金属矿产勘查70年进展[J]. 戴塔根,潘君庆,张德贤. 中国有色金属学报. 2019(09)
[2]Mechanism of Mg2+ dissolution from olivine and serpentine: Implication for bioleaching of high-magnesium nickel sulfide ore at elevated pH[J]. Jian-zhi Sun,Jian-kang Wen,Bo-wei Chen,Biao Wu. International Journal of Minerals Metallurgy and Materials. 2019(09)
[3]黄铜矿浸出:强调铜离子和铁离子的作用(英文)[J]. 杨聪仁,焦芬,覃文庆. Journal of Central South University. 2018(10)
[4]镍矿湿法冶金技术应用进展及研究展望[J]. 孙建之,陈勃伟,温建康,王淀佐. 中国有色金属学报. 2018(02)
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本文编号:3520957
【文章来源】:Journal of Central South University. 2020,27(11)EISCICSCD
【文章页数】:12 页
【文章目录】:
1 Introduction
2 Experimental
2.1 Materials
2.2 Oxidative leaching performance tests
2.3 Electrode and electrochemical measurements
3 Results and discussion
3.1 Mg2+and Na+stress on Ni,Cu,Fe,Mg leaching efficiencies
3.2 Mg2+and Na+stress on oxidation leaching reactions
3.3 Mg2+and Na+stress on oxidation leaching rate
3.4 Mg2+and Na+stress on oxidation leaching impedance
3.5 Mg2+and Na+stress on characterization of leaching residues
3.6 Roles of Mg2+and Na+in nickel sulfide ores oxidation leaching
4 Conclusions
Contributors
Conflict of interest
【参考文献】:
期刊论文
[1]中国有色金属矿产勘查70年进展[J]. 戴塔根,潘君庆,张德贤. 中国有色金属学报. 2019(09)
[2]Mechanism of Mg2+ dissolution from olivine and serpentine: Implication for bioleaching of high-magnesium nickel sulfide ore at elevated pH[J]. Jian-zhi Sun,Jian-kang Wen,Bo-wei Chen,Biao Wu. International Journal of Minerals Metallurgy and Materials. 2019(09)
[3]黄铜矿浸出:强调铜离子和铁离子的作用(英文)[J]. 杨聪仁,焦芬,覃文庆. Journal of Central South University. 2018(10)
[4]镍矿湿法冶金技术应用进展及研究展望[J]. 孙建之,陈勃伟,温建康,王淀佐. 中国有色金属学报. 2018(02)
[5]Regional tectonics,geology,magma chamber processes and mineralisation of the Jinchuan nickel-copper-PGE deposit,Gansu Province,China:A review[J]. T.M.(Mike) Porter. Geoscience Frontiers. 2016(03)
[6]镍黄铁矿电化学生物氧化过程的分解机理(英文)[J]. 李宏煦,李超,张祉倩. Transactions of Nonferrous Metals Society of China. 2012(03)
本文编号:3520957
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