Effective Use of CH₄ Gas as a Reducing Agent in Suspension Reduction Process

Abstract

The current study investigated the reduction and carburization in the suspension reduction of the fine Chinese Benxi magnetite ore with CH₄-containing gas. A very high fractional reduction was achieved by CH₄-containing gas at 1300°C compared with that by H₂ or CO gas. The reduction rate of the ore by CH₄ was higher than that by H₂ above 1150°C. The activation energies of the ore reduction by 11 vol%CH₄ and 20 vol%H₂ were calculated to be 113.6 and 76.9 kJ/mol, respectively. The reduction mechanism analysis showed that the formation of thin Fe layer reduced from wustite and the carbon dissolved into metallic shell by carburization had great influences on the further reduction progress. It is believed that the subsequent progress is related to the formation of less dense shell of metallic Fe with some cracks by the building up of gas pressure at Fe/wustite interface. Furthermore, the synergistic effect of H₂ addition to CH₄ gas on the reduction of the magnetite ore was also clarified.