Effect of Pt and Ru promoters on deactivation of Co catalysts by C deposition during Fischer–Tropsch synthesis: A DFT study

Authors:  Nianthrini Balakrishnan, Babu Joseph, Venkat R. Bhethanabotla

Abstract:
The effect of Pt and Ru promoters on the deactivation of Co catalyst by carbon deposition during CO hydrogenation is investigated using Density Functional Theory (DFT). The barriers for diffusion of C on the catalyst surface were found to be low on the promoted and unpromoted surfaces suggesting that C diffusion on these surfaces could occur easily facilitating coupling of C with other adsorbed species. The promoters did not significantly alter the barrier for diffusion of C to the subsurface. Both Ru and Pt reduced the barrier for C=H coupling and increased the barriers for C=C and C=C=C coupling. Most ofthe C structures (both finite and infinite as well ring compounds) on Pt promoted surface had lower stability than the C structures on the unpromoted surface. Ru reduced the stability of the larger C structures. The C structures on Pt promoted surface were less stable than C structures on Ru promoted surface. These results give insights into effects of Pt and Ru promoters on C deposition pathways that could occur on Co catalysts during FTS reactions.

Keywords:
Fischer–Tropsch synthesis
Deactivation
Carbon deposition
DFT
Promoted catalyst
Co catalyst
Bimetallic catalyst

Published in: Applied catalysis A: General  (Volumes 462–463, Pages 1-310, 10 July 2013)

Publisher: Elsevier      

ISSN Information: 0926-860X

Effect of Pt and Ru promoters on deactivation of Co catalysts by C deposition during Fischer–Tropsch synthesis: A DFT study

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