This article showed the developed technology for processing waste from the
converter stage in the production of copper. Laboratory and industrial tests were carried out
on reducing converter slag magnetite using clinker. The other processing technology was
carried out by the enrichment method using magnetic separation and gravitational
enrichment. As a result, it was possible to obtain enrichment products that could be sent to
flotation. The shown studies make it possible to obtain additional raw materials such as sulfide
concentrates and other sources of precious metals used to convert copper matte.
This article showed the developed technology for processing waste from the
converter stage in the production of copper. Laboratory and industrial tests were carried out
on reducing converter slag magnetite using clinker. The other processing technology was
carried out by the enrichment method using magnetic separation and gravitational
enrichment. As a result, it was possible to obtain enrichment products that could be sent to
flotation. The shown studies make it possible to obtain additional raw materials such as sulfide
concentrates and other sources of precious metals used to convert copper matte.
№ | Название ссылки |
---|---|
1 | N.M. Yakubov. World copper market: state and development prospects. “Marketing in Russia and abroad”, 2015. 123. |
2 | I. Bellemans., E. De Wilde., N. Moelans., K. Verbeken. Metal losses in pyrometallurgical operations a review. “In advances in colloid and interface science. Elsevier”, 2017. |
3 | L.B. Tsymbulov., M.V. Knyazev., L.Sh. Tsemekhman. Two-zone Vanyukov furnace. Prospects for application in non-ferrous metallurgy. “Non-ferrous metals”, 2009. 17 |
4 | A.S. Kolesnikov., B.E. Serikbaev., A.L. Zolkin., G.S. Kenzhibaeva., G.I. Isaev., N.E. Botabaev., Sh.K. Shapalov., O.G. Kolesnikova., G.M. Iztleuov., A.Zh. Suigenbaeva., A. N. Kutzhanova., D.D. Asylbekova., Kh.A. Ashirbaev., O.Z. Alchinbaeva., V.A. Kolesnikova. Processing of waste slag from non-ferrous metallurgy for the purpose of its complex utilization as a secondary industrial raw material N. Dosmukhamedov, M. Egizekov, E. Zholdasbay, V. Kaplan. “Metal recovery from converter slags using a sulfiding agent jom”, 2018. 2400 |
5 | I.A. Altushkin., Y.A. Korol., A.N. Golov. Innovations in copper metallurgy on the example of the implementation of the reconstruction project of ZAO Karabashmed. Part 1. Selection of the main melting unit. “Non-ferrous metals”, 2012. 12. |
6 | E.P. Bolshina. High technologies in metallurgy. “Production of non-ferrous metals”, 2008. 13. |
7 | M.M. Yakubov., A.M. Sainazarov., U.N. Ruziev., E.T. Safarov. On innovations in the processing of converter slags of copper production. “Uzbek chemical journal”, 2018. 27 |
8 | A.S. Khasanov., B.A. Vakkasov., A.A. Abdukadyrov. “Implementation of the oxygen-torch melting process at Almalyk MMC”, 2009. 68. |
9 | M.M. Yakubov., A.M. Sainazarov., U.N. Ruziev., E.T. Safarov. On innovations in processing converter slags of copper production. “Uzbek chemical journal”, 2018. 27 |
10 | A.S. Khasanov., K.S. Sanakulov., A.S. Atakhanov. Technological scheme of complex processing of slags from the Almalyk gas condensate field. News of higher educational institutions. “Non-ferrous metallurgy”, 2003. 9 |
11 | M.M. Yakubov., A.A. Yusupkhodzhaev. Improvement of the method for determining the degree of direct and indirect reduction of magnetite in liquid products of smelting copper sulfide concentrate. “Bulletin of Tashkent State Technical University”, 2004. 209 |
12 | M.M. Yakubov., A.A. Abdukadyrov., Sh.A. Mukhametzhanova., O.M. Yokubov. Involvement in producing technogenic formations at the enterprise JSC "Almalyk MMC". “Journal non-ferrous metals”, 2022. 36. |
13 | M.A. Dyussebekova., B.K. Kenzhaliyev., A. Kvyatkovskiy., A. Sit’ko. “Nurkhadianto the main reasons for increased copper losses with slags from Vanyukov furnace”, 2021. 309 |
14 | V.V. Morozov., E. Zhargalsaikhan., I.V. Pestryak. Improving the efficiency of flotation of copper-molybdenum ores using the measurement of the absorption capacity of the pulp. “Journal of mining sciences and technologies”, 2020. 188. |