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HomeSolid State PhenomenaSolid State Phenomena Vol. 299Process Development for Solid Fuel Use at Siderite...

Process Development for Solid Fuel Use at Siderite Ore Roasting in Shaft Furnace

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Abstract:

Lean coal burning kinetics was studied and the main burning rate dependence on oxygen content in gas phase and heating rate was obtained. Preliminary dressed lump siderite ore from Bakal deposit with the fraction of 18-25 mm and average iron content of 35% was roasted in a pilot unit in neutral (low reducing) atmosphere, obtained by coal grate firing. It was established that such roasting allowed iron oxidation level reduction, as compared to roasting in oxidizing atmosphere and iron content increase in the roasted product. The evaluation results allowed development of a roasting process for siderite ore in neutral (low reducing) atmosphere and designing of a shaft furnace operating on solid fuel. Such roasting process is of a certain interest, as far as saving the insufficient fuel types, and predominantly natural gas, is concerned.

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Materials Engineering and Technologies for Production and Processing V

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Periodical:

Solid State Phenomena (Volume 299)

Pages:

606-610

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.299.606

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Online since:

January 2020

Authors:

Boris P. Yur'ev, Vyacheslav A. Dudko*

Keywords:

Kinetics, Lean Coal, Roasting, Shaft Furnace, Siderite Ore, Solid Fuel, Temperature

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© 2020 Trans Tech Publications Ltd. All Rights Reserved

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[1] L.I. Leontiev, N.A. Vatolin, S.V. Shavrin, N.S. Shumakov, Pyrometallurgical Processing of Multimetal Ores, Metallurgy, Moscow, (1997).

[2] B.P. Uriev, S.G. Melamud, N.А. Spirin, V.V. Shatsilo, Process and Heating Principals of Siderite Ore Preparation for Metallurgical Conversions: monography, Marketing Communication Agency Day-RA, JSC, Ekaterinburg, (2016).

[3] B.P. Uriev, V.А. Goltsev, V.А. Dudko, Optimization of Siderite Ore Roasting Process in Shaft Furnaces, Ferrous Metallurgy Bulletin 7 (2017) 46 – 52.

[4] B.P. Uriev, V.А. Goltsev, V.А. Dudko, Study of Siderite Ore Heat Treatment Process in Shaft Furnace, Ferrous Metallurgy Bulletin 8 (2018) 36 – 42.

DOI: 10.32339/0135-5910-2018-8-36-42

[5] B.P. Uriev, V.А. Goltsev, Study of Operating Condition and Physico-Chemical Process Impact on Siderite Ore Metallurgical Properties at its Roasting in Shaft Furnace, Steel 6 (2013) 6 – 12.

[6] B.P. Uriev, V.А. Goltsev, Impact of Siderite Ore Composition, Design Factor and Operating Conditions on Shaft Furnace Operating Results, Steel 4 (2013) 6 – 10.

[7] Z.I. Kostina, S.А. Krylova, I.V. Ponurko, On Siderite Ore Processing Methods, International Magazine of Applied and Fundamental Research 11 (Part 4) (2015) 580 – 585.

[8] V.Е. Roshchin, S.P. Salikhov, А.V. Roshchin, S.А. Bryndin, Ferruginized Magnesium Flux and Original Iron Production by Lump Siderite Ore Metallization, New Refractory Materials 53 (2016) 24 – 25.

[9] V.Е. Roshchin, S.А. Bryndin, S.P. Salikhov, А.V. Roshchin, Process and Equipment for Direct Integrated Processing of Lump Siderite Ore at Steel Manufacture, Ferrous Metallurgy and Material Engineering Issues 1 (2016) 22 – 27.

[10] V.А. Bigeev, U.А. Kolesnikov, D.S. Sergeev, Condition and Use Perspectives of Bakal Deposit Siderite Ores in Ferrous Metallurgy. Metallurgical Production Theory and Process 1 (13) (2013) 6 – 8, Magnitogorsk State Technical University named after G. I. Nosov, Magnitogorsk, (2013).

DOI: 10.21209/2227-9245-2022-28-7-34-43

[11] М.E. Blank, B.А. Bokovikov, Т.D. Trapeznikova, B.P. Uriev, Experimental Study of Siderite Ore Reducing Roasting Process Kinetics, in Thermotechnical Research of Processes and Units in Ferrous Metallurgy, Metallurgy, Moscow, 1986. 9 – 12.

[12] М.E. Blank, V.V. Chervotkin, V.R. Konchakovsky, Development and Research of Two Stage Method of Iron Ore Raw Material Metallization in Trizonal Shaft Furnace, in Theory and Practice of Direct Iron Production, Science, Moscow, 1986. 207 – 211.

[13] М.E. Blank, B.А. Bokovikov, V.V. Chervotkin, V.R. Konchakovsky, Development and Research of Iron Ore Raw Material Metallization Method in Shaft Furnace without Use of Conversion Units, Steel 1 (1986) 5 – 9.

[14] N.S. Shumakov, Metallized Concentrate Production from Bakal Deposit Siderite Ores, Rational Utilization of Minerals 4 (1990) 52 – 55.

[15] B.V. Kantorovich, Introduction into Solid Fuel Combustion and Gasification Theory, Metallurgizdat, Moscow, (1960).

[16] D.М. Khzmalyan, Ya.А. Kagan, Combustion Theory and Combustor Plants, Energy, Moscow, (1976).

[17] L.Т. Pashkov, Combustion Fundamentals, Moscow Power Engineering Institute, Moscow, (2002).

[18] V.N. Belousov, V.V. Sergeev, Fuel and Combustion Theory, Polytechnic Institute Publishing House, St. Petersburg, (2014).

[19] I.N. Zverev, N.N. Smirnov, Combustion Gas Dynamics, Moscow State University Publishing House, (1987).

[20] Е.А. Blinov, Fuel and Combustion Theory. Fuel Preparation and Combustion, North-West Technical University Publishing House, St. Petersburg, (2007).