KnE Materials Science

ISSN: 2519-1438

The latest conference proceedings on physical materials, energy materials, electrical materials.

Processing of Anthropogenic Waste of Smelters of the Ural Mining and Metallurgical Company

Published date: Dec 31 2020

Journal Title: KnE Materials Science

Issue title: IV Congress “Fundamental Research and Applied Developing of Recycling and Utilization Processes of Technogenic Formations” Volume 2020

Pages: 418–424

DOI: 10.18502/kms.v6i1.8119

Authors:

A.M. Panshin

S.A. Yakornov

G.V. Skopov - skopov@ugmk.com

Abstract:

The industrial sites of the smelters of the Ural Mining and Metallurgical Company have accumulated a lot of anthropogenic waste, the processing of which is currently economically impractical. These primarily include tailings and beneficiation tailings, as well as waste granulated and copper smelting slag. This article conducts studies on technologies for x-ray-radiometric/magnetic separation enrichment of discard slags of MMSK as well as using jigging machines. Slag and slag enrichment tailings are used for cement production and road construction. For complex processing of fine copper smelting dusts OJSC Chelyabinsk zinc plant developed, tested and implemented a special technology. After implementation of ”Actions to process industrial waste generated by UMMC enterprises at metallurgical enterprises of UMMC-Holding Corp.”, the following were noted: concentrators and special beneficiation facilities process slag; R&D on complete processing of concentrator’s tailings was conducted; smelting dust was not stored but processed in full; the technology of implementing Waelz process for processing of steel smelting dust has been developed and commercially tested; the technology for extraction of copper and precious metals from pyrite dross is to be improved.

Keywords: anthropogenic waste, dust, tailings, slag, pyrite dross

References:

[1] Mamonov S. V., et al. (2018). Increase of technological parameters of processing of dump slags of copper smelting production based on their slow cooling and ultrafine grinding. Proceedings of higher educational institutions. Mining Journal. Issue 2, pp. 83-90.

[2] Shemyakin V.S. and Skopov S.V. (2013). Enrichment of technogenic formations by the method of X-ray radiometric separation. Non-ferrous metals. Issue 9, pp. 85-88.

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