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Metallurgist

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15-11-2023

Melting Ferrochrome Using Chrome-Ore Briquettes

Authors: A. K. Zhunusov, L. B. Tolymbekova, P. O. Bykov, O. V. Zayakin

Published in: Metallurgist | Issue 5-6/2023

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Abstract

Results are provided for experimental-industrial tests of high-carbon ferrochrome smelting with partial replacement of the basic chromium ore with chromium ore briquettes produced by OJSC Donskoi Ore Mining and Processing Plant in an amount of 20–40% of the chromium ore raw material supplied to TNC Kazchrome JSC Aksu Ferroalloys Plant (Kazakhstan). These tests show that use of chromium ore briquettes has a number of technological advantages. When using briquettes instead of ore, there is a reduction in electricity consumption from 7201 to 6184 kWh/ton, and chromium extraction increases from 80.3 to 85.3%. Use of briquettes solves the problem of involving substandard chromium ore raw materials in production and improving technical and economic performance of the furnace.

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L. P. Gal’perin, O. V. Zayakin, and Ya. I. Ostrovskii, “Features of production of high-carbon ferrochrome from chromium ore raw material of different forms,” Stal’, No. 11, 47–49 (2003).

V. I. Zhuchkov, L. P. Gal’perin, and V. B. Kashin, “Chromium-containing raw material lump formation,” Élekrometallurgiya, No. 9, 35-42 (2003).

Russian Raw Material Complex. Chromium Ores. Information Analytical Center “Mineral” [Electronic source] Access regime http://www.mineral.ru/Facts/Russia/161/549/3_06_cr.pdf. (Referral date 26.01.2023).

E. É. Abdulabekov, V. I. Grinenko, and D. D, Izbembetov, “production of chromite pellets for melting high-carbon ferrochrome,” Stal’, No. 5, 39–41 (2003).

O. V. Zayakin, L. I. Leont’ev, and V. I. Afanas’ev, “Production aspects of suing of lean chromium-containing ores,” in: Coll. Sci.-Pract. Conf. “Prospects of Developing Metallurgy and Engineering Using Improved Fundamental Research in NIOKR” [in Russian], IMET UrO RaAN, Ekaterinburg (2013), pp. 118–122.

A. Zhunusov, L. Tolymbekova, Ye. Abdulabekov, Zh. Zholdubayeva , and P. Bykov, “Agglomeration of manganese ores and manganese containing wastes of Kazakhstan,” Metallurgija, No. 60 (1–2), 101–103 (2021).

J. Pal, D. Bandyopadhyay, D. P. Singh, and S. Ghosh, “A comparative study for smelting of chromite ore, pellets, briquettes and sinter,” Mineral Processing and Extractive Metallurgy, 117, No. 3, 129–136 (2008); https://doi.org/10.1179/174328508X283469.CrossRef

V. I. Grinenko, P. S. Petlyukh, T. D. Takenov, et al., “Assimilation of melting technology for high-carbon ferrochrome using briquetted fine chromite ore,” Stal’, No. 12, 28–30 (2001).

A. Magdziarz, M. Kuźnia, M. Bembenek, et al., “Briquetting of EAF dust for its utilization in metallurgical processes,” Chemical and Process Engin., 36, No. 2, 263–271 (2015).CrossRef

10.

I. Yu. Ryvkin, A. Ya. Eremin, E. M. Litvin, and V. I. Babanin, “Briquetting fine-grained and finely dispersed materials with binder,” Koks i Khimiya., No. 10, 36–43 (2000).

11.

A. Ya. Eremin and V. I. Babanin, “Change in physicomechanical properties of mixtures of fine-grained materials with binders in preparation and compaction stages during briquetting,” Koks i Khimiya., 4, 17–26 (2003).

12.

L. Khoroshavin, “Metallurgical briquettes of a new generation reduce metal melting duration,” Ural. Rynok Metallov, No. 7, 39–42 (2006).

13.

V. V. Ozhogin, A. A. Tomash, and I. A. Kovalevskii, “Briquetting as a correct method for lumping metallurgical raw material,” Metall. Protsess. Oborud., No. 2, 54–58 (2005).

14.

A. V. Sivtsov, D. K. Egiazar’yan, O. Yu. Sheshukov, et al., “Methods for controlling parameters of electric arc characteristics and use in evaluating the efficiency of using briquetted metallized scale for steel smelting,” Metallurg, No. 1, 16–22 (2022).

15.

E. Zh. Shabanov, D. D. Izbembetov, S. O. Baisanov, et al., “Production technology for high-carbon ferrochrome using single charge briquettes,” Izv. Vuz. Chern. Met., No. 61(9), 695–701 (2018).

16.

A. M. Bizhanov, I. F. Kurunov, N. M. Durov, et al., “Briquette extrusion (bricks) for producing ferroalloys,” Metallurg., No. 12, 52–57 (2012).

17.

V. I. Grinenko, O. I. Polyakov, and M. I. Gasik, Kazalhstan Chromium [in Russian], Metallurgiya, Moscow (2001).

18.

M. Sh. Kats, V. P. Trabina, and P. P. Aganichev, “Study of reducing capacity of high-magnesia chromium ores of the Aktyubinsk deposit,” Stal’, No. 10, 911–912 (1974).

19.

V. I. Grinenko, P. S. Petlyukh, T. T. Takanov, et al., “Assimilation of electrothermal technology for high-carbon ferrochrome using pellets of chromium ore fines in AO Ferrokhrom,” Prom. Kazakhstana, No. 4, 74–76 (2000).

20.

I. S. Ostrovtseva, “Effect of slag composition and properties of carbon ferrochrome on degree of chromium extraction,” in: Chromium Ferroalloys [in Russian], Metallurgiya, Moscow (1986), pp. 48–53.

21.

N. L. Zhilo, I. S. Ostretsova, V. G. Mizin, et al., “Physicochemical properties of carbon ferrochrome slags,” Stal’, No. 3, 35–39 (1983).

22.

Kh. N. Kadarmetov, “Control of metal-slag barrier during reduction of chromium ore with carbon,” Proizvod. Ferrosplavov, No. 6, 5–13 (1978).

Title: Melting Ferrochrome Using Chrome-Ore Briquettes
Authors: A. K. Zhunusov
L. B. Tolymbekova
P. O. Bykov
O. V. Zayakin
Publication date: 15-11-2023
Publisher: Springer US
Published in: Metallurgist / Issue 5-6/2023
Print ISSN: 0026-0894
Electronic ISSN: 1573-8892
DOI: https://doi.org/10.1007/s11015-023-01549-6

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