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Erschienen in: Metallurgist 1-2/2017

19.05.2017

Use of Bakal Deposit Siderite Ore in Iron and Steel Production

verfasst von: A. S. Vusikhis, L. I. Leont’ev, D. Z. Kudinov

Erschienen in: Metallurgist | Ausgabe 1-2/2017

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Abstract

Iron ore reserves of the Bakal ore field are estimated. Chemical and phase compositions are provided for the main deposits. The efficiency of Bakal deposit utilization in blast furnace and steel smelting processes with different preparation methods is evaluated. It is shown that siderite may only be used as a combined raw material containing iron and magnesium.

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Literatur
1.
Zurück zum Zitat A. I. Akhlyustina, G. V. Zhukovskii, and A. P. Kvaskov, “Technology of classifying iron ore of the Bakal deposit,” Trudy Inst. Uralmekhanobr., Iss. 18, 37–43 (1972). A. I. Akhlyustina, G. V. Zhukovskii, and A. P. Kvaskov, “Technology of classifying iron ore of the Bakal deposit,” Trudy Inst. Uralmekhanobr., Iss. 18, 37–43 (1972).
2.
Zurück zum Zitat L. I. Leont’ev, M. A. Vatolin, S. V. Shavrin, and N. S. Shumakov, Pyrometallurgical Processing of Complex Ores, Metallurgiya, Moscow (1977). L. I. Leont’ev, M. A. Vatolin, S. V. Shavrin, and N. S. Shumakov, Pyrometallurgical Processing of Complex Ores, Metallurgiya, Moscow (1977).
3.
Zurück zum Zitat A. S. Vusikhis, L. I. Leont’ev, D. Z. Kudinov, and A. Yu. Sheshukov, “Analysis of contemporary methods for processing siderite ore,” Vest. MGTU im. Nosova, No. 3, 49–52 (2011). A. S. Vusikhis, L. I. Leont’ev, D. Z. Kudinov, and A. Yu. Sheshukov, “Analysis of contemporary methods for processing siderite ore,” Vest. MGTU im. Nosova, No. 3, 49–52 (2011).
4.
Zurück zum Zitat A. S. Vusikhis, D. Z. Kudinov, L. I. Leont’ev and A. Yu. Sheshukov, “Analysis of the efficiency of using siderite in blast-furnace smelting,” Proc. 9th All-Union Sci.-Tech Conf. Information Systems and Models in Scientific Research, Industry, Education, and Ecology, Izd. Innovats. Tekhnol., Tula (2011), pp. 66–71. A. S. Vusikhis, D. Z. Kudinov, L. I. Leont’ev and A. Yu. Sheshukov, “Analysis of the efficiency of using siderite in blast-furnace smelting,” Proc. 9th All-Union Sci.-Tech Conf. Information Systems and Models in Scientific Research, Industry, Education, and Ecology, Izd. Innovats. Tekhnol., Tula (2011), pp. 66–71.
5.
Zurück zum Zitat V. Shatsillo, S. Melamud, A. Lunegov, and I. Dutchuk, “Experience of using sideroplesite of the Bakal deposit under conditions of contemporary sinter-blast-furnace production,” Nats. Metallurg., No. 5, 74–79 (2005). V. Shatsillo, S. Melamud, A. Lunegov, and I. Dutchuk, “Experience of using sideroplesite of the Bakal deposit under conditions of contemporary sinter-blast-furnace production,” Nats. Metallurg., No. 5, 74–79 (2005).
6.
Zurück zum Zitat A. S. Vusikhis, V. I. Dvinin, L. I. Leont’ev, and S. G. Maizel’’, Patent 2041963 RF, IPC C22B1/04, “Method for preparing siderite for blast-furnace smelting,” subm. 04.08.1993, publ. 08.20.1995. A. S. Vusikhis, V. I. Dvinin, L. I. Leont’ev, and S. G. Maizel’’, Patent 2041963 RF, IPC C22B1/04, “Method for preparing siderite for blast-furnace smelting,” subm. 04.08.1993, publ. 08.20.1995.
7.
Zurück zum Zitat N. L. Zhilo, Blast-Furnace Slag Formation and Properties, Metallurgiya, Moscow (1974). N. L. Zhilo, Blast-Furnace Slag Formation and Properties, Metallurgiya, Moscow (1974).
8.
Zurück zum Zitat S. G. Melamud, V. V. Shatsillo, B. P. Ur’ev, and S. A. Zagainov, “Use of calcined siderite ore concentrate in the production of magnesia sinter,” Stal, No. 7, 2–7 (2013). S. G. Melamud, V. V. Shatsillo, B. P. Ur’ev, and S. A. Zagainov, “Use of calcined siderite ore concentrate in the production of magnesia sinter,” Stal, No. 7, 2–7 (2013).
9.
Zurück zum Zitat V. M. Demidik and T. B. Kolodnaya, “Electric-arc steel smelting as a required component of renewing Ukraine metallurgy,” Metal i Lit’e Ukrainy, No. 5, 34–39 (2010). V. M. Demidik and T. B. Kolodnaya, “Electric-arc steel smelting as a required component of renewing Ukraine metallurgy,” Metal i Lit’e Ukrainy, No. 5, 34–39 (2010).
10.
Zurück zum Zitat M. E. Blank, V. V. Chervotkin, and V. R. Konchakovskii, “Development and study of a two-stage method for metallizing iron ore raw material in a three-zone shaft furnace,” in: Theory and Practice of Direct Iron Preparation, Nauka, Moscow (1986), pp. 207–211. M. E. Blank, V. V. Chervotkin, and V. R. Konchakovskii, “Development and study of a two-stage method for metallizing iron ore raw material in a three-zone shaft furnace,” in: Theory and Practice of Direct Iron Preparation, Nauka, Moscow (1986), pp. 207–211.
11.
Zurück zum Zitat N. A. Vatolin, A. S. Vusikhis, V. I. Dvinin, et al., Patent 2087542 RF, IPC C21B13/00, “Method for pyrometallurgical enrichment of complex iron-containing materials,” subm. 11.16.1994, publ. 08.20.1997. N. A. Vatolin, A. S. Vusikhis, V. I. Dvinin, et al., Patent 2087542 RF, IPC C21B13/00, “Method for pyrometallurgical enrichment of complex iron-containing materials,” subm. 11.16.1994, publ. 08.20.1997.
12.
Zurück zum Zitat A. S. Vusikhis, O. Yu. Sheshukov, and L. I. Leont’ev, Patent 2489494 RF, IPC C21B13/08, “Method for metalizing magnesium-containing carbonate iron ore materials,” subm. 12.05.2011, publ. 08.10.2013. A. S. Vusikhis, O. Yu. Sheshukov, and L. I. Leont’ev, Patent 2489494 RF, IPC C21B13/08, “Method for metalizing magnesium-containing carbonate iron ore materials,” subm. 12.05.2011, publ. 08.10.2013.
13.
Zurück zum Zitat A. I. Gimel’farb, A. M. Nemenov, and B. E. Tarasov, Metallization and Electric Smelting of Iron Ore Raw Material, Metallurgiya, Moscow (1981). A. I. Gimel’farb, A. M. Nemenov, and B. E. Tarasov, Metallization and Electric Smelting of Iron Ore Raw Material, Metallurgiya, Moscow (1981).
14.
Zurück zum Zitat V. I. Karmazin, G. V. Gubin, and P. P. Urov, Calcining-Magnetic Enrichment of Iron Ore, Nedra, Moscow (1969). V. I. Karmazin, G. V. Gubin, and P. P. Urov, Calcining-Magnetic Enrichment of Iron Ore, Nedra, Moscow (1969).
15.
Zurück zum Zitat A. S. Vusikhis, V. S. Gulyakov, and D. Z. Kudinov, “Analysis of the efficiency of using Bakal Siderite in metallurgical processes,” Metal. Protsess. Oborud., No. 2(32), 16–24 (2013). A. S. Vusikhis, V. S. Gulyakov, and D. Z. Kudinov, “Analysis of the efficiency of using Bakal Siderite in metallurgical processes,” Metal. Protsess. Oborud., No. 2(32), 16–24 (2013).
16.
Zurück zum Zitat A. A. Babenko, L. Yu. Krivykh, and V. V. Levchuk., “Effect of magnesium oxide content on refining properties of converter slags,” Izv. Vyssh. Uchebn. Zaved., Chern. Met., No. 4, 20–23 (2010). A. A. Babenko, L. Yu. Krivykh, and V. V. Levchuk., “Effect of magnesium oxide content on refining properties of converter slags,” Izv. Vyssh. Uchebn. Zaved., Chern. Met., No. 4, 20–23 (2010).
17.
Zurück zum Zitat V. I. Baptizmanskii, M. Ya. Medzhibozhskii, and V. B. Okhotskii, “Converter processes for steel production,” in: Theory, Technology and Construction of Units, Visha Shkola, Kiev, Donetsk (1984). V. I. Baptizmanskii, M. Ya. Medzhibozhskii, and V. B. Okhotskii, “Converter processes for steel production,” in: Theory, Technology and Construction of Units, Visha Shkola, Kiev, Donetsk (1984).
18.
Zurück zum Zitat V. A. Bigeev and Yu. A. Kolesnikov, “Prediction of production parameters for steel smelting in a converter using siderite,” in: Theory and Technology of Metallurgical Production: Coll. Sci. Works, V. M. Kolokol’tsev (ed.), Izv. MGTU im. Nosova, Magnitogorsk (2011), pp. 30–36. V. A. Bigeev and Yu. A. Kolesnikov, “Prediction of production parameters for steel smelting in a converter using siderite,” in: Theory and Technology of Metallurgical Production: Coll. Sci. Works, V. M. Kolokol’tsev (ed.), Izv. MGTU im. Nosova, Magnitogorsk (2011), pp. 30–36.
Metadaten
Titel
Use of Bakal Deposit Siderite Ore in Iron and Steel Production
verfasst von
A. S. Vusikhis
L. I. Leont’ev
D. Z. Kudinov
Publikationsdatum
19.05.2017
Verlag
Springer US
Erschienen in
Metallurgist / Ausgabe 1-2/2017
Print ISSN: 0026-0894
Elektronische ISSN: 1573-8892
DOI
https://doi.org/10.1007/s11015-017-0463-3

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