Extensive research is conducted and a production scheme is proposed, including recovery of copper-containing slag with coke carbon and neutralization of waste copper electrolyte with the product obtained.
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T. Matuła, B. Oleksiak, G. Siwiec, and J. Wieczorek, “The effect of carbon reducer form on cooper recovery from oxide slags,” Acta Metallurgica Slovaca – Conference, 4, 160–164 (2014).
D. G. Medikhanov, “Involvement in processing of BGMK technogenic deposits,” in: Coll. Sci. Work for BGMK Problems, BGMK, Balkhash (2001), pp. 137–142.
E. M. Kharchenko and K. Zh. Zhumashev “Study of scientific and technical bases for combined treatment of waste copper slag and exhausted copper electrolyte,” Vestn. Yuzh. Ural. Gos. Univ., No. 36(253), 18–23 (2011).
K. Zhumashev, RK Patent 20338, MPK F27B 1/10m C22B 30/04 (8). Agglomeration-Charge Furnace, Claim 05.282007, Publ. 11.17.2008, Bull. No. 11.
N. V. Permikina, “Flotation technology for processing granulated copper smelting slag,” in: Proc. Ural. Mining Industry Decade, UGTU, Ekaterinburg (2005), pp. 142–143.
S. S. Naboichenko, S. V. Mamyachenkov, and S. V. Karelov, Arsenic in Nonferrous Metallurgy [in Russian], S. S. Naboichenko (editor), UrO RAN, Ekaterinburg (2004).
A. Yusupkhodjayev, S. Khojiev, and J. Mamirkulov, “The analysis of physicochemical properties of metallurgical molten slags,” in: Coll. Articles of Internat. Sci. Conf, in 2 Vol., Vol. 1, Science and Enlightenment, MNTsS, Penza (2017), pp. 12–15.
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Translated from Metallurg, Vol. 62, No. 12, pp. 46–49, December, 2018.
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Кharchenko, E.M., Zhumashev, K.Z. & Selivanov, E.N. Development of Technology for Recycling Copper Smelting Production Waste. Metallurgist 62, 1250–1254 (2019). https://doi.org/10.1007/s11015-019-00782-2
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DOI: https://doi.org/10.1007/s11015-019-00782-2