Kinetic study of carbon dioxide catalytic methanation over cobalt–nickel catalysts

Alla G. Dyachenko; Olena V. Ischenko; Snizhana V. Gaidai; Tetiana M. Zakharova; Andrii V. Yatsymyrskyi; Vladyslav V. Lisnyak

Journal ArticleOPEN ACCESS

Kinetic study of carbon dioxide catalytic methanation over cobalt–nickel catalysts

Dyachenko A
Ischenko O
Gaidai S
et al.

French-Ukrainian Journal of Chemistry (2019) 7(1) 74-80

DOI: 10.17721/fujcv7i1p74-80

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Abstract

Based on the data of the thermoprogrammed desorption and using mass-spectroscopic analysis of desorbed products and on the kinetic patterns of the methanation process for cobalt–nickel catalysts, we suggested a mechanism for the reaction which passes through forming intermediate formyl compounds: CHO*, HCOH*, and HCOOH*. Because of the high stability of the carbon dioxide molecule, the step of adding the first hydrogen atom is the limiting step. Such a mechanism is in good agreement with the proposed kinetic equations.

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Dyachenko, A. G., Ischenko, O. V., Gaidai, S. V., Zakharova, T. M., Yatsymyrskyi, A. V., & Lisnyak, V. V. (2019). Kinetic study of carbon dioxide catalytic methanation over cobalt–nickel catalysts. French-Ukrainian Journal of Chemistry, 7(1), 74–80. https://doi.org/10.17721/fujcv7i1p74-80

Kinetic study of carbon dioxide catalytic methanation over cobalt–nickel catalysts

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