Steam Reforming of Methane on Sponge Iron: Influence of Gas Composition on Reaction Rate

Tiago Ramos Ribeiro; João Batista Ferreira Neto; João Guilherme Rocha Poço; Cyro Takano; Leiv Kolbeinsen; Eli Ringdalen

doi:10.2355/isijinternational.ISIJINT-2019-477

Steelmaking

Steam Reforming of Methane on Sponge Iron: Influence of Gas Composition on Reaction Rate

Tiago Ramos Ribeiro , João Batista Ferreira Neto, João Guilherme Rocha Poço, Cyro Takano, Leiv Kolbeinsen, Eli Ringdalen

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Keywords: direct reduction, DRI, sponge iron, methane reforming, in-situ reforming, auto reforming

JOURNAL OPEN ACCESS FULL-TEXT HTML

2021 Volume 61 Issue 1 Pages 182-189

DOI https://doi.org/10.2355/isijinternational.ISIJINT-2019-477

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Abstract

Direct Reduction processes use gases (CO and H₂) for iron reduction and production of sponge iron or direct reduced iron (DRI). The generation of this gas occurs through methane reforming, which can be done in a reformer or inside the reduction shaft with the sponge iron as a catalyst. The latter occurs in the auto-reforming processes. The kinetics of steam reforming of methane catalyzed by sponge iron was studied at temperatures between 875°C and 1050°C. Results showed that sponge iron acts as a catalyst and methane conversion is increased in higher temperatures and with higher H₂/H₂O ratio in the inlet gas. The inlet gas composition like one of the industrial auto-reforming processes led to intense carburization and hindered the catalytic reforming reaction.

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