Liquid-phase dehydration of 1-phenylethanol on solid acids: Influence of catalyst acidity and pore structure
Authors: Nicolás M. Bertero, Andrés F. Trasarti, Carlos R. Apesteguía, Alberto J. Marchi
Abstract:
The liquid-phase dehydration of 1-phenylethanol (PHE) over different solid acids was studied at 363K using cyclohexane as solvent. It was found that the catalyst activity and selectivity strongly depended on: (1) the nature, strength and density of acid sites and (2) the textural properties of the catalyst.
Catalysts containing mainly surface Brønsted acid sites of medium–high strength, such as Amberlyst 15, HPA/SiO2, and HMOR zeolite, showed low initial styrene (STY) selectivity because the PHE dehydrated to alpha-methylbenzyl ether (AME) at higher or similar rates than to STY. Both primary products, STY and AME, were consecutively transformed to other heavy products (HP).
Catalysts containing predominantly Lewis acid sites, such as ZnO/SiO2, Al-MCM-41 and SiO2–Al2O3, selectively transformed PHE to AME. The ether can be sequentially converted to STY and HP, depending on the solid acidity. Solid acids having strong surface Lewis sites, e.g. SiO2–Al2O3, showed high dehydration rate and HP production. Samples containing exclusively weak Lewis acid sites, e.g. -Al2O3, were not active in the PHE dehydration at 363K.
Only zeolites HZSM-5, HBEA and HY, with similar surface density of Brønsted and Lewis acid sites, converted selectively PHE into STY, giving initial STY selectivities between 83 and 96%. However, HY zeolite was rapidly deactivated due to the blockage of its microporous structure by bulky compounds formed inside the large cages of 13A. ˚ Instead, on HBEA, STY was converted to HP that can diffuse through the solid microporous structure. Then,the selectivity to STY was drastically reduced with time. A constant and high STY selectivity at total PHE conversion was only obtained with HZSM-5. The pore size of this zeolite is enough to allow the diffusion and conversion of PHE into STY, but it is not adequate to form the surface intermediates leading to AME and HP.
Thus, it was proved that:(1)the surface Brønsted to Lewis ratio strongly influences the initial selectivity in the liquid-phase PHE dehydration; (2) a similar Brønsted to Lewis ratio on the solid acid surface is necessary to obtain high initial selectivity to STY; and (3) the right porous structure is crucial to avoid HP production and keep constant the STY selectivity at high PHE conversion. From the experimental results obtained in this work, a mechanistic approach was proposed in order to explain the influence of both acid site nature and pore size on the selective PHE dehydration in liquid phase.
Keywords:
Liquid-phase dehydration
Acid catalysis
Shape selectivity
1-Phenylethanol
Styrene
Published in: Applied catalysis A: General (Volume 458, Pages 1-206, 10 May 2013)
Publisher: Elsevier
ISSN Information: 0926-860X
Liquid-phase dehydration of 1-phenylethanol on solid acids: Influence of catalyst acidity and pore structure
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