| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1268687 | International Journal of Hydrogen Energy | 2016 | 11 Pages |
•Methane steam reforming over Ni3Al foil catalysts was investigated.•Water vapor and hydrogen pretreatment was conducted to enhance catalytic activity.•Water vapor (873–923 K; 1 h) and hydrogen treatment (873 K; 1 h) improved activity.•Ni particle formation on the surface during pretreatment contributed to enhancement.
A pretreatment procedure consisting of water vapor oxidation followed by H2 reduction has been developed for enhancing the catalytic activity of as-rolled Ni3Al foils for steam reforming of methane. The catalytic activities of the as-rolled Ni3Al foils in the temperature range of 873–1023 K at a steam to carbon ratio of 1.0 were found to be significantly improved by the pretreatment procedure consisting of a water vapor oxidation at 873–923 K for 1 h followed by a H2 reduction at 873 K for 1 h. Surface characterization of the foils before and after the reactions revealed that many fine NiO particles were formed on the surface by the water vapor oxidation at 873–923 K, whereas much less NiO particles were formed by the water vapor oxidation at low temperatures (<873 K) or high temperatures (>973 K). During the subsequent H2 reduction treatment at 873 K, These NiO particles were reduced to metallic Ni. It is supposed that the enhancement in catalytic activity is attributed to the fine metallic Ni particles formed on the foil surface by the pretreatment procedure.
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