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Fischer-Tropsch synthesis over an alumina-supported cobalt catalyst in a fixed bed reactor – Effect of process parameters

Ljubiša Gavrilović, Erik A. Jørgensen, Umesh Pandey, Koteswara Rao Putta, Kumar R. Rout, Erling Rytter, Magne Hillestad, Edd A. Blekkan

2020Catalysis Today44 citationsDOIOpen Access PDF

Abstract

Fischer-Tropsch synthesis has been investigated over a commercial type cobalt-based catalyst (20 %Co/0.5 %Re/γ-Al2O3) by varying the H2/CO ratio (2.55–1.12), CO conversion (15–75 %), reaction temperature (210 °C, 230 °C), and by adding water to the syngas. The experiments were conducted in a fixed bed reactor with the main purpose of obtaining experimental data to be used in the development and fitting of a mechanistic model. A positive effect of water on the catalyst activity was found for experiments with a H2/CO ratio higher than 1.7. Water was found to always increase the C5+ selectivity regardless of the H2/CO ratio. Increasing conversion led to increased C5+ selectivity. The selectivity to CO2 was significantly enhanced at higher conversions (high water partial pressure), particularly with the lowest H2/CO = 1.12, interpreted as the emergence of water-gas shift activity. Re-oxidation of cobalt, probably limited to small cobalt particles, is proposed as the main deactivation mechanism caused by water while a steeper deactivation curve was found for higher temperature, indicating that sintering also may play a role.

Topics & Concepts

Fischer–Tropsch processCobaltCatalysisSelectivitySyngasSinteringChemistryChemical engineeringWater-gas shift reactionInorganic chemistryOrganic chemistryEngineeringCatalysts for Methane ReformingCatalysis for Biomass ConversionCatalytic Processes in Materials Science