ISIJ International
Online ISSN : 1347-5460
Print ISSN : 0915-1559
ISSN-L : 0915-1559
Regular Article
Water-gas Shift Reaction in an Olivine Pellet Layer in the Upper Part of Blast Furnace Shaft
Antti KemppainenTuomas AlatarvasMikko IljanaJuho HaapakangasOlli MattilaTimo PaananenTimo Fabritius
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2014 Volume 54 Issue 4 Pages 801-809


In order to reduce CO2 emissions in the iron and steel industry, the utilization of H2 gas as a reducing agent is a feasible option. The use of hydrogen bearing injectants in the lower blast furnace (BF) area increases H2O concentration in the upper part of the BF shaft and the charging of moist burden has a similar effect as well. For efficient BF operation, it is important to investigate the effect of high H2 and therefore high H2O concentrations in the reducing gas. This study focuses on the upper BF shaft area where hematite to magnetite reduction takes place and temperature is in the range of the forward water-gas shift reaction (WGSR). The effect of the WGSR on the composition of the reducing gas was estimated by experimental methods. A layer furnace (LF) was used to determine the temperature for the occurrence of the WGSR under simulated BF shaft conditions. The feed gas conversion was investigated in an olivine pellet layer. The WGSR was observed in an empty LF with CO–H2O–N2 gas at 500°C. With CO–CO2–H2O–N2 gas the WGSR was observed in an olivine pellet layer at 400–450°C and in a pre-reduced magnetite pellet layer at 300–400°C indicating the catalyzing effect of magnetite on the WGSR. The results offer additional information about the effect of high H2O concentration on the composition of the reducing gas through the WGSR. The occurrence of the WGSR in the actual BF and its effects were discussed.

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© 2014 by The Iron and Steel Institute of Japan
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