What question did this study set out to answer?

This research aims to enhance the selectivity of long-chain hydrocarbons in Fischer−Tropsch synthesis.

April 15, 2026Open Access

Enhancement of C 5+ Selectivity and Wax Yield in Fischer−Tropsch Synthesis by a Single Cycle of H 2 /CO Feed Ratio Probed by Operando Magnetic Resonance

Key Points

This research aims to enhance the selectivity of long-chain hydrocarbons in Fischer−Tropsch synthesis.
Utilized a fixed bed reactor with Ru/TiO2 catalyst pellets.
Investigated the effect of varying H2/CO feed ratios.
Conducted operando magnetic resonance measurements for real-time analysis.
Analyzed the impact on intra-pellet hydrocarbon composition.
Achieved over a 45% increase in C5+ selectivity and wax yield.
Identified significant changes in olefin mass transfer due to the feed ratio switch.
Highlighted the role of intra-pellet liquid composition in regulating selectivity.

Abstract

Enhancing the selectivity to long chain hydrocarbons is important for optimizing industrial Fischer−Tropsch synthesis (FTS). Here, we observe that a single cycle of the H2/CO feed ratio between 2 and 0.5 significantly enhances the steady state C5+ selectivity and wax (C30−C100) yield (>45% increase) for FTS over Ru/TiO2 catalyst pellets occurring in a fixed bed reactor. Operando magnetic resonance measurement reveals that this enhancement arises from changes in olefin mass transfer within the evolving intra-pellet hydrocarbon composition. Time-resolved analysis of intra-pellet hydrocarbon chain length and C5+ selectivity in the exit stream following a feed ratio switch highlights the importance of intra-pellet liquid composition in regulating selectivity.

Enhancement of C 5+ Selectivity and Wax Yield in Fischer−Tropsch Synthesis by a Single Cycle of H 2 /CO Feed Ratio Probed by Operando Magnetic Resonance

Key Points

Abstract

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