期刊
CATALYSIS TODAY
卷 131, 期 1-4, 页码 255-261出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.cattod.2007.10.056
关键词
Fischer-Tropsch synthesis; bimetallic catalyst; FT kinetics; Co-Mo oxide; slurry reactor
An evaluative investigation of the Fischer-Tropsch performance of two catalysts (20%Co/Al2O3 and 10%Co: 10%Mo/Al2O3) has been carried out in a slurry reactor at 2 MPa and 220-260 degrees C. The addition of Mo to the Co-catalyst significantly increased the acid-site strength suggesting strong electron withdrawing character in the Co-Mo catalyst. Analysis of steady-state rate data however, indicates that the FT reaction proceeds via a similar mechanism on both catalysts (carbide mechanism with hydrogenation of surface precursors as the rate-determining step). Although chain growth, alpha, on both catalysts were comparable (alpha congruent to 0.6), stronger CH2 adsorption on the Co-Mo catalyst and lower surface concentration of hydrogen adatoms as a result of increased acid-site strength was responsible for the lower individual hydrocarbons production rate compared to the Co catalyst. The activation energy, E, for Co (96.6 kJ mol(-1)), is also smaller than the estimate for the Co-Mo catalyst (112 kJ mol(-1)). Transient hydrocarbon rate profiles on each catalyst are indicative of first-order processes, however the associated surface time constants are higher for alkanes than alkenes on individual catalysts. Even so, for each homologous class, surface time constants for paraffins are greater for Co-Mo than Co, indicative that the adsorption of CH2 Species on the Co-Mo surface is stronger than on the monometallic Co catalyst. (c) 2007 Elsevier B.V. All rights reserved.
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