Non Monotonous Product Distribution Dependence on Pt/γ‐Al2O3−Cl Catalysts Formulation in n‐Heptane Reforming

The synthesis of 19 carefully selected Pt/γ‐Al2O3−Cl formulations was followed by high‐throughput catalytic testing in order to unravel the effect of an active phase formulation change on n‐heptane reforming performances. Pt/γ‐Al2O3−Cl catalysts were prepared with different Pt (0.3–1 %wt) and Cl (0....

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Bibliographic Details
Published in:ChemCatChem 2020-04, Vol.12 (8), p.2262-2270
Main Authors: Said‐Aizpuru, Olivier, Batista, Ana T. F., Bouchy, Christophe, Petrazzuoli, Vittorio, Allain, Florent, Diehl, Fabrice, Farrusseng, David, Morfin, Franck, Joly, Jean‐François, Dandeu, Aurélie
Format: Article
Language:English
Subjects:
Aluminum oxide
bi-functional catalysis
Catalysis
Catalysts
Chemical Sciences
Crystallites
Environment and Society
Environmental Sciences
Heptanes
Hydrocracking
Hydrogenolysis
Isomerization
n-heptane reforming
Naphtha
Pt/γ-Al2O3−Cl
Reforming
Selectivity
selectivity descriptor
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Summary:The synthesis of 19 carefully selected Pt/γ‐Al2O3−Cl formulations was followed by high‐throughput catalytic testing in order to unravel the effect of an active phase formulation change on n‐heptane reforming performances. Pt/γ‐Al2O3−Cl catalysts were prepared with different Pt (0.3–1 %wt) and Cl (0.1–1.4 %wt) contents and using two γ‐Al2O3 supports so that both sites concentrations and sites locations at the crystallite surface vary among the catalyst pool. Catalytic tests were conducted in mild conditions for a comparison of catalysts in kinetic regime. Results show that Pt and Cl concentrations control the competition between hydroisomerisation, hydrogenolysis and hydrocracking pathways. Aromatisation, on the contrary, is poorly affected by formulation changes. Non‐monotonous trends linking Pt/Cl ratio to isomerisation selectivity are found for both γ‐Al2O3 supports. This study provides new insights for the description of bi‐functional transformations in catalytic naphtha reforming. n‐Heptane reforming: Catalytic tests were carried on in order to unravel the effect of an active phase formulation change on n‐heptane reforming performances Results show that with Pt/γ‐Al2O3−Cl systems, Pt and Cl concentrations control the competition between hydroisomerisation, hydrogenolysis and hydrocracking pathways. Similar non‐monotonous trends linking Pt/Cl ratio to isomerisation selectivity are found for two γ‐Al2O3 supports. This study provides hints for the description of bi‐functional transformations in catalytic naphtha reforming.
ISSN:1867-3880
1867-3899
1867-3899
DOI:10.1002/cctc.201902260