Journal of Molecular Catalysis A-Chemical, Vol.286, No.1-2, 137-142, 2008
Effect of interaction between potassium and structural promoters on Fischer-Tropsch performance in iron-based catalysts
The Fischer-Tropsch synthesis (FTS) performances of iron-based catalysts promoted with/without potassium compounds containing different acidic structural promoters (Al2O3, SiO2, and ZSM-5) were studied in this research. Characterization technologies of temperature-programmed reduction with CO (CO-TPR), powder X-ray diffraction (XRD) and Mossbauer effect spectroscopy (MES) were used to study the effect of K-structural promoter interactions on the carburization behaviors of catalysts. It showed that the addition states of potassium (K-Al2O3, K-SiO2, K-ZSM-5 and K-free) have a significant influence on the formation of iron carbides, which shows a following sequence in promotion of carburization: K-Al2O3 > K-SiO2 > K-ZSM-5 > K-free. The FTS reaction test was performed in a fixed bed reactor. It is found that Fe/K-Al2O3 catalyst leads to the highest CO conversion, Fe/K-ZSM-5 catalyst shows the highest H-2 conversion, and Fe/K-free catalyst shows the lowest CO and H-2 conversion. As for the hydrocarbon selectivity, Fe/K-SiO2 catalyst yields the lowest methane and the highest C-5(+) products, Fe/K-ZSM-5 catalyst yields higher methane and the highest liquid hydrocarbon product, whereas Fe/K-free catalyst yields the highest methane and the lowest C-5(+) products. These results can be explained from the interaction between potassium and structure promoters, and the spillover of reactants or intermediates from Fe sites to the surfaces of structural promoters. (C) 2008 Elsevier B.V. All rights reserved.
Keywords:Fischer-Tropsch synthesis;iron-based catalysts;potassium promoter;structure promoter;interaction