4.5 Article

Effect of active and inert oxide on catalytic partial oxidation (CPO) of methane over supported Ni catalysts

期刊

INORGANICA CHIMICA ACTA
卷 531, 期 -, 页码 -

出版社

ELSEVIER SCIENCE SA
DOI: 10.1016/j.ica.2021.120710

关键词

Methane partial oxidation; Nickel catalysts; La2O3; CeO2; SiO2

资金

  1. Bilateral Collaboration Program Project CNR/CSIR
  2. Ex-ecutive Programme for Cooperation [MAE01054762017]

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This review examines the impact of preparation methods, types of carrier, different catalysts, and support structures on the CH4 catalytic partial oxidation (CPO) activity of supported Ni catalysts, based on research results obtained by the group over the last five years. It discusses the structural effects of Ni supported on La2O3, CeO2, and mixed CeO2-La2O3, as well as the influence of active and inert oxide carriers on metal dispersion, reducibility, and carbon formation. The importance of the interaction between support and active metals in determining surface distribution of active sites and final catalytic activity is emphasized through various case studies.
The effects of preparation method, types of carrier and different catalyst and support structures on the CH4 catalytic partial oxidation (CPO) activity of supported Ni catalysts are reviewed with respect to selected results obtained by this research group during the last five years. In particular, different preparation methods and structural effect of Ni supported on La2O3, on CeO2 and on mixed CeO2-La2O3 are discussed. The effects of the peculiarity of an active (redox) and of an inert oxide carrier, influencing the metal dispersion, the metal reducibility and the carbon formation, are considered by comparing the catalytic performance of nickel catalysts supported on CeO2 and on SiO2. Ni supported over a high surface area silica will be compared with a corresponding ceria-doped nickel catalyst. The results of a detailed material characterization attained by several techniques as XPS, XRD, TPR/TPO are described, aiming to elucidate the structure - activity relationship. The reviewing of the different case studies illustrates the importance of the interaction between support and active metals ultimately determining the surface distribution of the active sites and their final catalytic activity.

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