Enhancing the stability of porous catalysts with supercritical reaction media

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30 April 2001

journal article
Published by Elsevier in Applied Catalysis A: General

Vol. 212 (1-2), 199-213
https://doi.org/10.1016/s0926-860x(00)00848-6

Abstract

No abstract available

This publication has 45 references indexed in Scilit:

Kinetics on a supported catalyst at supercritical, nondeactivating conditions
AIChE Journal, 1999
Fischer-tropsch synthesis in near-criticaln-hexane: Pressure-tuning effects
AIChE Journal, 1998
Effect of Process Conditions on Olefin Selectivity during Conventional and Supercritical Fischer−Tropsch Synthesis
Industrial & Engineering Chemistry Research, 1997
A Kinetic Study ofn-Heptane Catalytic Cracking over a Commercial Y-Type Zeolite under Supercritical and Subcritical Conditions
Journal of Catalysis, 1996
Deactivation kinetics and modelling of coke removal under supercritical conditions for the example of ethylbenzene disproportionation
Chemical Engineering & Technology, 1995
Olefinic Oligomer and Cosolvent Effects on the Coking and Activity of a Reforming Catalyst in Supercritical Reaction Mixtures
Journal of Catalysis, 1995
Steady State Fischer-Tropsch Synthesis in Supercritical Propane
Industrial & Engineering Chemistry Research, 1995
Catalytic reforming of coal tar pitch in supercritical fluid
Fuel, 1991
Isomerization of 1-Hexene over Pt/$gamma;-Al2O3 catalyst: Reaction mixture density and temperature effects on catalyst effectiveness factor, coke laydown, and catalyst micromeritics
Journal of Catalysis, 1991
Supercritical phase Fischer-Tropsch synthesis reaction
Fuel, 1989

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