Boosting Selectivity toward Long-Chain α‑Olefins in CO<sub>2</sub> Hydrogenation through Strengthening ZnO-Fe Interactions with Favorable Iron Phase Regulation for Fischer-Tropsch Synthesis. [PDF]
JACS AuFan Z +11 more
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Kinetic Study of Product Distribution Using Various Data-Driven and Statistical Models for Fischer-Tropsch Synthesis. [PDF]
ACS Omega, 2021 Wang Y +10 more
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Surface Sensitivity of Mesoporous Carbon-Supported Iron Catalysts in the Fischer-Tropsch Synthesis: An <i>In Situ</i> XPS Site Evolution at Distinct Reaction Conditions. [PDF]
Energy FuelsNascimento JPS +8 more
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Facet sensitivity of iron carbides in Fischer-Tropsch synthesis. [PDF]
Nat CommunWu W +9 more
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Zeolite-Modified Fischer-Tropsch Synthesis
, 2011 The improvement of the gasoline selectivity and quality with the addition of HZSM-5 to the Fe-FT process is evident from literature. The catalytic performance of the combined Fe-FT/HZSM-5 system has been observed to decline with time-on-stream, attributed to the migration of alkali from the Fe-FT catalyst tothe HZSM-5 zeolite. The catalytic performance
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Kinetic study of Fe & Co perovskite catalyst in Fischer-Tropsch synthesis. [PDF]
Sci RepMoshtari B, Hashemabadi SH, Zamani Y.
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Biosugarcane-based carbon support for high-performance iron-based Fischer-Tropsch synthesis. [PDF]
iScience, 2021 Bai J, Qin C, Xu Y, Du Y, Ma G, Ding M.
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CFD study on microchannel reactor operating conditions for Fischer-Tropsch synthesis with Fe-based catalysts. [PDF]
RSC AdvRen S, Wang Y.
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Effect of Fe on Co-Based SiO<sub>2</sub>Al<sub>2</sub>O<sub>3</sub> Mixed Support Catalyst for Fischer-Tropsch Synthesis in 3D-Printed SS Microchannel Microreactor. [PDF]
MoleculesArslan M +4 more
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