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The effect of blast furnace shaft accretion on COutilization

Published online by Cambridge University Press:  11 August 2014

R. Móger
Affiliation:
Chief Metallurgist, Technological Department, ISD Dunaferr Dunai Vasmû Co. Ltd., Hungary. e-mail: [email protected]
O. Farkas
Affiliation:
Professor Emeritus, University of Miskolc, Hungary
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Abstract

Accretion on the lining of the blast furnace results in a harmful effect on burdendescent, which also has a negative effect on energy balance. This eventually leads toincreased CO2emission. We examined which blast furnace zones were significantly affected by thethickness of the accretion layer and how this affects the blast furnace gas streamrelations. Using a heat transfer model, the samples taken from the accretion andstatistical analysis of the typical operating parameters of the blast furnace, amathematical model was created in order to determine the thickness of blast furnace shaftaccretion and its effect on gas utilization.

Type
Research Article
Copyright
© EDP Sciences 2014

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References

R. Lin, W. Harting, J. Hochhaus, Investigation of chlorine and alkali impacts on the blast furnace operation, The 5th European Coke and Ironmaking Congress, 12–15 June 2005, Stockholm, Sweden
L. Hári, A cianidok képzõdésének sajátosságai a nyersvasgyártásban, Bányászati és Kohászati Lapok, 2002. február-március.135. évfolyam, 2-3.szám
Zhou, Q., Bi, X., Scand. J. Metall. 16 (1987) 57-66
Benesch, R., Ledzki, A., Kopec, P., Stachura, R., Migas, P., Klimczyk, A., Mazanek, K., Metall. Foundry Eng. 23 (1997) 291-307
B.N. Zherebin, Zinc in blast furnaces, Steel, 1991, pp. 451-452
Chernov, N.N., Demidenko, T.V., Marder, B.F., Pochekailo, I.E., Taranovskii, V.V., Metall. 5 (1983) 12-14
J. Erikson, Accretion formation in the blast furnace, Examination of accretions in LKAB’s EBF, MEFOS presentation
O. Farkas, Nyersvasmetallurgia, Tankönyvkiadó, Budapest, 1989
J. van der Stel et al., Development of the ULCOS Low CO2 Blast Furnace Process at the LKAB Experimental BF in Lulea, paper presented at METEC 27 June-1 July 2011, Düsseldorf
EC Cont. No. 7210-PR/199, Investigation of accretion formation in a blast furnace shaft, 2005, pp. 52-53