Promotional effect of Al addition on the Co/ZrO2 catalyst for dry reforming of CH4

Addition of an appropriate amount of Al to the Co/ZrO2 catalyst enhance the oxidation resistance of active cobalt species during the dry reforming of methane. [Display omitted] •Addition of Al enhances the stability of the Co/ZrO2 catalyst for dry reforming.•Oxidation of metallic Co to CoOx hinders...

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Bibliographic Details
Published in:Applied catalysis. A, General General, 2018-07, Vol.562, p.120-131
Main Authors: Park, Jung-Hyun, Yeo, Suyeon, HeO, Iljeong, Chang, Tae-Sun
Format: Article
Language:English
Subjects:
Al2O3 promoter
Cobalt catalyst
Dry reforming of methane
Strong interaction
Structural stabilizer
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Summary:Addition of an appropriate amount of Al to the Co/ZrO2 catalyst enhance the oxidation resistance of active cobalt species during the dry reforming of methane. [Display omitted] •Addition of Al enhances the stability of the Co/ZrO2 catalyst for dry reforming.•Oxidation of metallic Co to CoOx hinders the conversion.•Addition of Al induces the strong interaction between the Co and the ZrO2.•The activity of all Al-contained catalysts improved compared to Co/ZrO2. The dry reforming of methane (DRM) was performed on the Al-promoted CoAl(x)/ZrO2 catalysts (x = 0 − 2 wt.%). The addition of a small amount of Al led to an apparent promotional effect on the catalytic activity and stability of the Co-based catalyst. The largest promotional effect was observed for the Co/ZrO2 catalyst with 1 wt.% of Al loading. Although the Co/ZrO2 catalyst exhibited considerable catalytic activity, it was rapidly deactivated during the DRM, while the Al-promoted catalysts exhibited a stable catalytic activity. The addition of appropriate amount of Al species might be caused the strong interaction with the cobalt species at either the ZrO2 surface or near the interfacial region. Thus, the Al promoter led to the enhancement of the catalytic performance of Co/ZrO2 catalyst system by acting as a structural stabilizer.
ISSN:0926-860X
1873-3875
DOI:10.1016/j.apcata.2018.05.036