Kamyar Keyvanloo scite author profile

Fischer−Tropsch synthesis (FTS) is a technically proven and economically viable route for the conversion of coal, biomass, and natural gas to hydrocarbon fuels. Although unsupported Fe catalysts are proven for FTS, they lack the physical strength and durability that would make them more viable for large-scale commercial reactors, and their activity is still significantly less than that of Co FT catalysts. In this work, we report on a very active and stable supported Fe FT catalyst that is more active than any supported Fe FT catalyst previously reported and competitive with the best unsupported catalysts. In addition, its productivity, which takes into account selectivity to desired hydrocarbon products, is also very competitive. More importantly, the catalyst is extremely stable, as evidenced by the fact that after 700 h on stream, its activity and productivity are still increasing. These catalyst properties result from using a novel γ-alumina support material doped with silica and pretreated at 1100 °C. This unique support has high pore volume, large pore diameter, and unusually high thermal stability. The ability to pretreat this support at 1100 °C enables preparation of a material having a low number of acid sites and weak metal oxide−support interactions, all desirable properties for an FT catalyst. These results demonstrate that the surface chemistry of the support material plays a crucial role in the design of an active and stable supported Fe FT catalyst.

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Kinetics of deactivation by carbon of a cobalt Fischer–Tropsch catalyst: Effects of CO and H2 partial pressures

Keyvanloo

Fisher

Hecker

et al. 2015

Journal of Catalysis

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Investigating the effect of key factors, their interactions and optimization of naphtha steam cracking by statistical design of experiments

Keyvanloo

Towfighi

Sadrameli

et al. 2010

Journal of Analytical and Applied Pyrolysis

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Highly active and stable supported iron Fischer–Tropsch catalysts: Effects of support properties and SiO2 stabilizer on catalyst performance

Keyvanloo

Hecker

Woodfield

et al. 2014

Journal of Catalysis

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Acid site properties of thermally stable, silica-doped alumina as a function of silica/alumina ratio and calcination temperature

Mardkhe

Keyvanloo

Bartholomew

et al. 2014

Applied Catalysis A: General

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