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K-promoted Mo/Co- and Mo/Ni-catalyzed Fischer–Tropsch synthesis of aromatic hydrocarbons with and without a Cu water gas shift catalyst

•Catalysts were developed for the conversion of H2/CO into aromatic hydrocarbons.•Mo/Ni or Mo/Co, both alone and used with a WGS catalyst, exhibited good activity.•Tetra- and penta-methylbenzene made up over 80% of the collected liquid products.•The catalyst recyclability was good through three cycl...

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Bibliographic Details
Published in:Applied catalysis. A, General General, 2014-06, Vol.480, p.93-99
Main Authors: Wijayapala, Rangana, Yu, Fei, Pittman, Charles U., Mlsna, Todd E.
Format: Article
Language:English
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Summary:•Catalysts were developed for the conversion of H2/CO into aromatic hydrocarbons.•Mo/Ni or Mo/Co, both alone and used with a WGS catalyst, exhibited good activity.•Tetra- and penta-methylbenzene made up over 80% of the collected liquid products.•The catalyst recyclability was good through three cycles.•The WGS catalyst improves CO conversion and H2 use efficiency. The catalyst systems Mo/Co/K/ZSM-5 and Mo/Ni/K/ZSM-5, alone and with the added copper-based water gas shift catalyst, were used for the conversion of two CO/H2 ratios in a batch reactor. GC analysis of the gas phase was used to determine CO conversion while GCMS and NMR studies were used to characterize the liquid products formed and liquid product selectivities. The liquids were hydrocarbons consisting mainly of alkyl substituted benzenes. Methyl substitution in the alkyl benzenes in the product liquid ranged from an average of 1.3 to 4.5 methyls per ring depending on reaction conditions and reactant gas mole ratios. The additional presence of the WGS catalyst significantly increased CO conversion in the reactions taking place at 280°C from ∼25% to ∼90% while increasing selectivity toward higher average methyl substitution. Similar conversions and selectivities were observed with both a bio-syngas and a 50/50 mixture of H2 and CO.
ISSN:0926-860X
1873-3875
DOI:10.1016/j.apcata.2014.04.044