Fischer–Tropsch synthesis: Activity of metallic phases of cobalt supported on silica

Fischer–Tropsch synthesis: Activity of metallic phases of cobalt supported on silica

•Co-hcp and Co-fcc metallic phases were tested for FTS.•Higher dispersion of cobalt for Co-hcp compared to Co-fcc catalyst.•Co-hcp shows higher CO conversion than Co-fcc on a catalyst weight basis.•Hcp and fcc phases of cobalt are stable during FTS. By using different catalyst pretreatments, silica...

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Bibliographic Details
Published in:Catalysis today Vol. 215; pp. 13 - 17
Main Authors: Gnanamani, Muthu Kumaran, Jacobs, Gary, Shafer, Wilson D., Davis, Burtron H.
Format: Journal Article Conference Proceeding
Language:English
Published: Amsterdam Elsevier B.V 15-10-2013
Elsevier
Subjects:
Catalysis
Chemistry
Exact sciences and technology
Fcc cobalt
Fischer–Tropsch synthesis
General and physical chemistry
Hcp cobalt
Theory of reactions, general kinetics. Catalysis. Nomenclature, chemical documentation, computer chemistry
XRD
XRD
Fcc cobalt
Hcp cobalt
Fischer–Tropsch synthesis
Binary compound
Support
Fischer Tropsch synthesis
Transition metal
Synthetic fuel
Cobalt
X ray diffraction
Silica
Heterogeneous catalysis
Fischer―Tropsch synthesis
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Summary:•Co-hcp and Co-fcc metallic phases were tested for FTS.•Higher dispersion of cobalt for Co-hcp compared to Co-fcc catalyst.•Co-hcp shows higher CO conversion than Co-fcc on a catalyst weight basis.•Hcp and fcc phases of cobalt are stable during FTS. By using different catalyst pretreatments, silica supported cobalt catalysts were activated to produce either hcp or fcc cobalt metal particles, as verified by XRD. H2-TPR and pulse re-oxidation experiments show a higher dispersion of cobalt for the catalyst containing the hcp metallic phase compared to the fcc phase. Cobalt containing hcp metallic phase has shown higher CO conversion on a catalyst weight basis and less methane selectivity compared to fcc containing catalysts under similar reaction conditions. Both hcp and fcc phases of cobalt are stable during the Fischer–Tropsch (FT) synthesis.
ISSN:0920-5861
1873-4308
DOI:10.1016/j.cattod.2013.03.004