Catalytic performances of Co/SiO2 prepared through thermal decomposition for Fischer-Tropsch synthesis
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Graphical Abstract
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Abstract
Cobalt based catalysts supported on amorphous SiO2 were prepared through thermal decomposition as well as incipient wetness impregnation. They were characterized by means of TG, XRD, TEM and TPR and used in Fischer-Tropsch (F-T) synthesis. The results indicated that Co/A200-I catalyst prepared by impregnation exhibits high F-T synthesis activity, though cobalt particles in it are in irregular shape. In comparison, the cobalt particles in Co/A200-D catalyst prepared through decomposition are in secondary spherical structure with relatively uniform diameter and the Co/A200-D catalyst exhibits high selectivity to light hydrocarbon in F-T synthesis. The specific surface area of SiO2 support also influences the structure of catalysts obtained. Compared with the Co/A200-D catalyst, Co/A380-D catalyst prepared by decomposition with higher surface area support is more difficult in reduction due to the stronger metal-support interaction; however, Co/A380-D exhibits higher catalytic activity in F-T synthesis, probably due to the higher cobalt dispersion
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