Co/Al2O3 catalysts, prepared from four commercial aluminas, with different
cobalt loading have been studied for the carbon monoxide hydrogenation (Fis
cher-Tropsch synthesis). The effects of reaction and reduction temperatures
, deactivation, cobalt content and texture of supports on the catalytic pro
perties have been especially examined.
An increase in the reaction temperature improves the activity and the selec
tivity for light products. The product distribution follows the Schulz-Flor
y model.
For the 15 wt.% Co on powder alumina catalyst, the activity and the paraffi
n/olefin ratio C-6(-)/C-6(=) follow a logarithmic decrease with the time-on
-stream. Characterization by XRD, XPS and SSA measurements have shown the p
resence of heavy hydrocarbons (C-12(+)) in the tested catalyst porosity.
The cobalt loading and the porosity of supports modify the catalytic proper
ties through their effects on the reducibility of the active phase. An incr
ease in the extent of reduction improves the activity and the selectivity f
or high molecular hydrocarbons weight.
The evolution of the chain growth probability (a) is closely related to the
degree of reduction. In the absence of secondary reactions, a seems to be
limited at a maximum value. (C) 2001 Elsevier Science B.V. All rights reser
ved.