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Experimental investigation on the optimal carbon/hydrogen ratiofor developing an iron bath reactor with H2-C mixture reduction-II

Published online by Cambridge University Press:  26 September 2012

Zhang Bo
Affiliation:
Shanghai Key Laboratory of Modern Metallurgy & Materials Processing, Shanghai University, China. e-mail: [email protected]
Guo Jie
Affiliation:
Shanghai Key Laboratory of Modern Metallurgy & Materials Processing, Shanghai University, China. e-mail: [email protected]
Zhang Huaiwei
Affiliation:
Shanghai Key Laboratory of Modern Metallurgy & Materials Processing, Shanghai University, China. e-mail: [email protected]
Mao Jiajun
Affiliation:
Shanghai Key Laboratory of Modern Metallurgy & Materials Processing, Shanghai University, China. e-mail: [email protected]
Li Qiuju
Affiliation:
Shanghai Key Laboratory of Modern Metallurgy & Materials Processing, Shanghai University, China. e-mail: [email protected]
Wang Dongyan
Affiliation:
Baoshan Iron and Steel Corporation, China
Hong Xin
Affiliation:
Shanghai Key Laboratory of Modern Metallurgy & Materials Processing, Shanghai University, China. e-mail: [email protected]
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Abstract

The basic idea of H2-C mixture reduction reflects the advantages of hydrogenfor fast reaction and low heat absorption in a smelting reduction reactor where hydrogenis used as the main reducing agent and carbon as the main heat generator on purpose to cutdown the total energy consumption and CO2 emission. This work aimed at theexperimental investigation of the optimal carbon/hydrogen ratio, a key parameter of ironoxide reduction with mixture reductive agents of carbon and hydrogen. Experiments werecarried out using a pure Al2O3 crucible which was placed in atubular furnace for high temperature. Two investigation methods were adopted: one wasinjecting an acetylene/hydrogen mixture reducing gas into molten iron oxides, and theother was blowing hydrogen into an iron bath during continuous feeding of fine ore mixingsolid carbon. Parameters such as the apparent de-oxidation rate and utilization ratio ofreductive agents were calculated from content analysis of the exhaust gas after dustremoval and drying. In the experiments the highest total de-oxidation rate andsatisfactory apparent utilization ratio of hydrogen were obtained under conditions withtemperatures of 1823 K and the carbon/hydrogen ratio in the region of 0.5:1 to 1:1.

Type
Research Article
Copyright
© EDP Sciences 2012

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