Low temperature hydrogenolysis of waxes to diesel range gasoline and light alkanes: Comparison of catalytic properties of group 4, 5 and 6 metal hydrides supported on silica-alumina

Sebastien Norsic; Cherif Larabi; Marco Delgado; Anthony Garron; Aimery de Mallmann; Catherine Santini; Kai C. Szeto; Jean-Marie Basset; Mostafa Taoufik

doi:10.1039/c1cy00256b

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Low temperature hydrogenolysis of waxes to diesel range gasoline and light alkanes: Comparison of catalytic properties of group 4, 5 and 6 metal hydrides supported on silica-alumina

Journal article

Peer reviewed

Low temperature hydrogenolysis of waxes to diesel range gasoline and light alkanes: Comparison of catalytic properties of group 4, 5 and 6 metal hydrides supported on silica-alumina

Sebastien Norsic, Cherif Larabi, Marco Delgado, Anthony Garron, Aimery de Mallmann, Catherine Santini, Kai C. Szeto, Jean-Marie Basset and Mostafa Taoufik

Catalysis science & technology, Vol.2(1), pp.215-219

01/01/2012

DOI: https://doi.org/10.1039/c1cy00256b

Abstract

Chemistry

Chemistry, Physical

Physical Sciences

Science & Technology

A series of metal hydrides (M = Zr, Hf, Ta, W) supported on silica-alumina were studied for the first time in hydrogenolysis of light alkanes in a continuous flow reactor. It was found that there is a difference in the reaction mechanism between d(0) metal hydrides of group 4 and d(0) <-> d(2) metal hydrides of group 5 and group 6. Furthermore, the potential application of these catalysts has been demonstrated by the transformation of Fischer-Tropsch wax in a reactive distillation set-up into typical gasoline and diesel molecules in high selectivity (up to 86 wt%). Current results show that the group 4 metal hydrides have a promising yield toward liquid fuels.

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Title: Low temperature hydrogenolysis of waxes to diesel range gasoline and light alkanes: Comparison of catalytic properties of group 4, 5 and 6 metal hydrides supported on silica-alumina
Creators - without role: Sebastien Norsic - École d'Ingénieurs en Chimie et Sciences du Numérique
Cherif Larabi - École d'Ingénieurs en Chimie et Sciences du Numérique
Marco Delgado - École d'Ingénieurs en Chimie et Sciences du Numérique
Anthony Garron - École d'Ingénieurs en Chimie et Sciences du Numérique
Aimery de Mallmann - École d'Ingénieurs en Chimie et Sciences du Numérique
Catherine Santini - École d'Ingénieurs en Chimie et Sciences du Numérique
Kai C. Szeto - Claude Bernard University Lyon 1
Jean-Marie Basset - King Abdullah University of Science and Technology
Mostafa Taoufik - École d'Ingénieurs en Chimie et Sciences du Numérique
Publication Details: Catalysis science & technology, Vol.2(1), pp.215-219
Publisher: Royal Soc Chemistry
Number of pages: 5
Grant note: 60563 / IL, Naperville, USA 150 / BP, W Warrenville Road
Identifiers: 9945106608331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article