Feasibility of Electro-Reduction of Metals in Sulfide-Based Copper Removal Slag for Steelmaking

IF 1.6 4区 材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING
Zhihao Lu, Xiangwei Liao, Chenglin Zhao, Deli Shang, Haiwei Wang, Chengjun Liu
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引用次数: 0

Abstract

This paper proposed an innovative electrochemical method for copper recovery from spent sulfide slag (Na2S-FeS-Cu2S), generated during copper removal from iron-based melts. It aims to reduce the high decopperization agents' consumption caused by low copper distribution ratio during the copper removal process, address the cost issues by recycle of slag and recovery of copper, and expand the application potential of the emerging copper removal method using the sulfide slag systems. The feasibility of electro-recovery of copper is verified by cyclic voltammetry tests and potentiostatic electrolysis experiments. The results show that in the Na2S-FeS-Cu2S melt, although copper cannot be reduced alone without reducing iron, rough separation can be achieved by controlling the temperature. The current efficiency of Cu+ reduction in the molten sulfide is about 9.1% due to electronic conduction in the sulfide melt, which needs further improvement. The slag treated by the innovative electrochemical process can be reused, as the XRD results show that it has a similar composition to the primary slag unused.

电还原炼钢用硫化物脱铜渣中金属的可行性
本文提出了一种创新的电化学方法,用于从铁基熔体除铜过程中产生的硫化废渣(Na2S-FeS-Cu2S)中回收铜。该方法旨在减少除铜过程中因铜分配率低而导致的高脱铜剂消耗,通过渣的循环利用和铜的回收解决成本问题,并扩大利用硫化渣系统的新兴除铜方法的应用潜力。通过循环伏安测试和恒电位电解实验验证了电法回收铜的可行性。结果表明,在 Na2S-FeS-Cu2S 熔体中,虽然不还原铁就不能单独还原铜,但通过控制温度可以实现粗分离。由于硫化物熔体中的电子传导,目前在硫化物熔体中还原 Cu+ 的效率约为 9.1%,有待进一步提高。经创新电化学工艺处理过的炉渣可以重复使用,因为 XRD 结果表明其成分与未使用的原炉渣相似。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Isij International
Isij International 工程技术-冶金工程
CiteScore
3.40
自引率
16.70%
发文量
268
审稿时长
2.6 months
期刊介绍: The journal provides an international medium for the publication of fundamental and technological aspects of the properties, structure, characterization and modeling, processing, fabrication, and environmental issues of iron and steel, along with related engineering materials.
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