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High temperature iron-based catalysts for hydrogen and nanostructured carbon production by methane decomposition
Authors:J.L. Pinilla,R. UtrillaR.K. Karn,I. SuelvesM.J. Lá  zaro,R. MolinerA.B. Garcí  a,J.N. Rouzaud
Affiliation:a Instituto de Carboquímica, CSIC, Miguel Luesma Castán 4, 50018-Zaragoza, Spain
b Instituto Nacional del Carbón, CSIC, Francisco Pintado Fe 26, 33011-Oviedo, Spain
c Laboratoire de Géologie, UMR 8538 CNRS, Ecole Normale Supérieure, 24 rue Lhomond, 75231 Paris Cedex 05, France
Abstract:The production of hydrogen and filamentous carbon by means of methane decomposition was investigated in a fixed-bed reactor using iron-based catalysts. The effect of the textural promoter and the addition of Mo as a dopant affects the catalysts performance substantially: iron catalyst prepared with Al2O3 showed slightly higher catalytic performance as compared to those prepared with MgO; Mo addition was found to improve the catalytic performance of the catalyst prepared with MgO, whereas in the catalyst prepared with Al2O3 displayed similar or slightly poorer results. Additionally, the influence of the catalyst reduction temperature, the reaction temperature and the space velocity on the hydrogen yield was thoroughly investigated. The study reveals that iron catalysts allow achieving high methane conversions at operating temperatures higher than 800 °C, yielding simultaneously carbon nanofilaments with interesting properties. Thus, at 900 °C reaction temperature and 1 l g−1cat h−1 space velocity, ca. 93 vol% hydrogen concentration was obtained, which corresponds to a methane conversion of 87%. Additionally, it was found that at temperatures higher than 700 °C, carbon co-product is deposited mainly as multi walled carbon nanotubes. The textural and structural properties of the carbonaceous structures obtained are also presented.
Keywords:Hydrogen production   Iron-based catalysts   Methane decomposition   Carbon nanotubes
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