Hydrocracking of Octacosane and Cobalt Fischer–Tropsch Wax over Nonsulfided NiMo and Pt-Based Catalysts

Abstract: The effect of activation environment (N2, H2 and H2S/H2) on the hydrocracking performance of a NiMo/Al catalyst was studied at 380 °C and 3.5 MPa using octacosane (C28). The catalyst physical structure and acidity were characterized by BET, XRD, SEM-EDX and FTIR techniques. The N2 activation generated more active nonsulfided NiMo/Al catalyst relative to the H2 or H2S activation (XC28, 70–80% versus 6–10%). For a comparison, a NiMo/Si-Al catalyst was also tested after normal H2 activation and showed higher acti… Show more

“…The effect of Pt loading (0-2%) and reaction temperature (200-400 • C) on the yield of various products were studied and optimized. Ma et al of the University of Kentucky studied hydrocracking of octacosane and cobalt Fischer-Tropsch wax over nonsulfided NiMo and Pt-Based Catalysts [12]. Authors discovered an effective N 2 activation approach for activating NiMo/Al catalyst, which pushed catalyst activity increasing to 75% at 380 • C and 3.5 MPa from 8% that was obtained after normal H 2 or H 2 S activation.…”

Special Issue Editorial: Catalytic Conversion of Carbonaceous Materials to Fuels and Chemicals

“…The effect of Pt loading (0-2%) and reaction temperature (200-400 • C) on the yield of various products were studied and optimized. Ma et al of the University of Kentucky studied hydrocracking of octacosane and cobalt Fischer-Tropsch wax over nonsulfided NiMo and Pt-Based Catalysts [12]. Authors discovered an effective N 2 activation approach for activating NiMo/Al catalyst, which pushed catalyst activity increasing to 75% at 380 • C and 3.5 MPa from 8% that was obtained after normal H 2 or H 2 S activation.…”

Special Issue Editorial: Catalytic Conversion of Carbonaceous Materials to Fuels and Chemicals

Fischer–Tropsch Synthesis over Bifunctional Catalysts Based on HBeta Zeolite

Highly Selective Bifunctional Iron-Zeolite Catalysts for the Production of Liquid-Range Hydrocarbons Via Fischer-Tropsch Synthesis: Correlation between Acidity and Hydrocarbon Distribution