Improving the quality of converting products by the joint smelting of high-sulfur copper concentrate with copper-lead matte

IF 0.8 Q4 METALLURGY & METALLURGICAL ENGINEERING Kompleksnoe Ispolzovanie Mineralnogo Syra Pub Date : 2023-07-05 DOI:10.31643/2024/6445.06
A. Argyn, E. Zoldasbay, N. Dosmukhamedov
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引用次数: 1

Abstract

The paper presents the results of studies on the processing of copper-lead mattes with high-sulfur copper concentrate in a converter. The effect of high-sulfur copper concentrate on the quality of converting products is shown. Based on the obtained results, a comparative analysis of the technological indicators of the 1st period of converting copper-lead mattes according to the existing technology and in the joint processing of copper-lead mattes with copper concentrate was carried out. It has been established that when the high-sulfur copper concentrate is used as a sulfidizing agent, excess sulfur released as a result of the dissociation of higher sulfides is completely absorbed by the slag melt. It is shown that elemental sulfur, interacting with oxides of non-ferrous metals and impurities, has a significant effect on the equilibrium distribution of metals between the converting products and their extraction into targeted products. The influence of sulfur on the destruction of magnetite in the process of converting was also established. New data on the distribution of non-ferrous and associated metal impurities (As, Sb, etc.) were obtained during the conversion of copper-lead mattes with high-sulfur copper concentrate. High values were established for the extraction of non-ferrous metals and impurities into targeted products: copper into matte - up to 98%, lead, zinc, arsenic, and antimony into dust - 87%, 91%, 84%, and 38%, respectively. The possibility of a significant improvement in technical and economic indicators, the quality of converting products, and environmental protection during the joint smelting of high-sulfur copper concentrate with a copper-lead matte are shown. The developed technology for converting copper-lead mattes, with high-sulfur copper concentrate, is easily integrated into the plant structure of Kazzinc LLP without any special material costs.
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高硫铜精矿与铜铅锍联合冶炼提高转炉产品质量
本文介绍了用高硫铜精矿在转炉中加工铜铅锍的研究结果。介绍了高硫铜精矿对转炉产品质量的影响。在此基础上,对按现有工艺转化铜铅砂一期工艺指标与铜精矿联合处理铜铅砂一期工艺指标进行了对比分析。用高硫铜精矿作硫化剂时,由于高硫解离而释放的多余硫被熔渣完全吸收。结果表明,单质硫与有色金属氧化物和杂质相互作用,对金属在转化产物和萃取产物之间的平衡分布有显著影响。确定了硫对磁铁矿转化过程中破坏的影响。获得了高硫铜精矿转化铜铅锍过程中有色金属及其伴生金属杂质(As、Sb等)分布的新数据。建立了有色金属和杂质从目标产品中提取的高值:铜从哑光中提取高达98%,铅,锌,砷和锑从粉尘中提取分别为87%,91%,84%和38%。指出了高硫铜精矿与铜铅锍联合冶炼在技术经济指标、转炉产品质量和环境保护等方面有显著改善的可能性。开发的高硫铜精矿铜铅锍转化技术,可轻松集成到Kazzinc LLP的工厂结构中,无需任何特殊材料成本。
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