Complex Processing of Copper Smelting Slags with Obtaining of Cast Iron Grinding Media and Proppants

KnE Materials Science Pub Date : 2020-12-31 DOI:10.18502/kms.v6i1.8126

V. E. Roshchin, G. Adilov, A. Povolotckii, Y. Kapelyushin

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Abstract

The Ural region has a large number of metallurgical companies. The extraction of metals from ore is always accompanied by the accumulation of wastes. Currently, most of the wastes are stored in dumps and storage facilities forming technogenic deposits. One such that occupies huge areas is copper slag from the copper-smelting production. According to current estimations, about 2.2 tons of slag is formed for each ton of copper produced and about 24 million tons are produced annually [1]. In general, a copper slag contains about 35-45% iron and 0.4-0.5 copper, which indicates that this is a valuable secondary resource for recycling and utilization [33]. However, more than 80% of copper slag is not utilized, which makes it possible to consider this waste not only as a valuable material, but also as a potential hazard for the environment; it contaminates the soil and water with heavy elements [8]. Currently, only small amounts of the waste are recycled. In addition, technologies do not allow the complete extraction of valuable elements. This offers potential for the development of new highly efficient technologies for processing copper smelting wastes with extraction of valuable elements such as iron (Fe). Improvement of Fe quality requires a decrease in non-ferrous metal content, especially Cu. In recent years, extensive research was directed at the extraction of valuable materials from copper slags by high-temperature firing of copper conglomerates with subsequent magnetic separation or leaching of non-ferrous metals. However, these studies do not allow the complete processing of copper smelting slags. This work studies the production of iron-containing briquettes from copper-smelting slags, and their subsequent processing to obtain valuable products for metallurgical and oil companies. Keywords: briquette, reduction, cast iron, proppants

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炼铜渣的复合处理及铸铁磨矿介质和支撑剂的获得

乌拉尔地区有大量的冶金公司。从矿石中提取金属总是伴随着废物的积累。目前，大多数废物被储存在垃圾场和储存设施中，形成技术沉积物。其中占地面积较大的是铜冶炼生产产生的铜渣。根据目前的估计，每生产1吨铜产生约2.2吨渣，每年生产约2400万吨铜。一般情况下，铜渣中铁含量约为35-45%，铜含量约为0.4-0.5，是一种有价值的可回收利用的二次资源[33]。然而，超过80%的铜渣没有得到利用，这使得这种废物不仅可以被视为有价值的材料，而且可以被视为对环境的潜在危害;它用重元素污染土壤和水。目前，只有一小部分垃圾被回收利用。此外，技术不允许完全提取有价值的元素。这为开发新的高效技术处理铜冶炼废料并提取铁(Fe)等有价值元素提供了潜力。提高铁的质量需要降低有色金属的含量，特别是Cu的含量。近年来，广泛的研究方向是通过高温烧成铜砾岩，然后磁分离或浸出有色金属，从铜渣中提取有价物质。然而，这些研究并不能完全处理铜冶炼渣。本文研究了从炼铜渣中生产含铁型煤，并对其进行后续处理，以获得冶金和石油公司有价值的产品。关键词:型煤，还原，铸铁，支撑剂

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KnE Materials Science

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