Cobalt Particle Size Effects in the Fischer−Tropsch Reaction Studied with Carbon Nanofiber Supported Catalysts
Shell (Netherlands) · Utrecht University · +1 more institution
Abstract
The influence of cobalt particle size in the range of 2.6-27 nm on the performance in Fischer-Tropsch synthesis has been investigated for the first time using well-defined catalysts based on an inert carbon nanofibers support material. X-ray absorption spectroscopy revealed that cobalt was metallic, even for small particle sizes, after the in situ reduction treatment, which is a prerequisite for catalytic operation and is difficult to achieve using traditional oxidic supports. The turnover frequency (TOF) for CO hydrogenation was independent of cobalt particle size for catalysts with sizes larger than 6 nm (1 bar) or 8 nm (35 bar), while both the selectivity and the activity changed for catalysts with smaller…
Citation impact
- FWCI
- 17.69
- Percentile
- 100%
- References
- 39
Authors
9- GLG. Leendert BezemerCorresponding
Shell (Netherlands), Utrecht University, Delft University of Technology
- JHJohannes H. Bitter
Utrecht University, Delft University of Technology, Shell (Netherlands)
- HKH.P.C.E. Kuipers
Delft University of Technology, Shell (Netherlands), Utrecht University
- HOHeiko Oosterbeek
Utrecht University, Delft University of Technology, Shell (Netherlands)
- JEJohannes E. Holewijn
Shell (Netherlands), Utrecht University, Delft University of Technology
Topics & keywords
- Fischer–Tropsch process
- Cobalt
- Catalysis
- Particle size
- Chemistry
- Particle (ecology)
- Carbon nanofiber
- Heterogeneous catalysis