Tjh Thijs Vlugt scite author profile

The alkylation of isobutane with light alkenes plays an essential role in modern petrochemical processes for the production of high-octane gasoline. In this study we have employed periodic DFT calculations combined with microkinetic simulations to investigate the complex reaction mechanism of isobutane–propene alkylation catalyzed by zeolitic solid acids. Particular emphasis was given to addressing the selectivity of the alkylate formation versus alkene formation, which requires a high rate of hydride transfer in comparison to the competitive oligomerization and deprotonation reactions resulting in catalyst deactivation. Our calculations reveal that hydride transfer from isobutane to a carbenium ion occurs via a concerted C–C bond formation between a tert-butyl fragment and an additional olefin, or via deprotonation of the tert-butyl fragment to generate isobutene. A combination of high isobutane concentration and low propene concentration at the reaction center favor the selective alkylation. The key reaction step that has to be suppressed to increase the catalyst lifetime is the deprotonation of carbenium intermediates that are part of the hydride transfer reaction cycle.

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Using molecular dynamics to obtain Maxwell-Stefan diffusion coefficients in liquid systems

Ven-Lucassen¹,

Vlugt²,

Zanden³

et al. 1998

Mol. Phys.

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Numerical study of the force network ensemble

Eerd¹,

Tighe²,

Vlugt³

2009

Molecular Simulation

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Styrene and ethylbenzene absorption in ionic liquids: comparing DFT affinity calculations with experimental data

Ervasti

Kroon

Vlugt

et al. 2013

Molecular Simulation

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Tjh Thijs Vlugt

Hydride Transfer versus Deprotonation Kinetics in the Isobutane–Propene Alkylation Reaction: A Computational Study

Using molecular dynamics to obtain Maxwell-Stefan diffusion coefficients in liquid systems

Numerical study of the force network ensemble

Styrene and ethylbenzene absorption in ionic liquids: comparing DFT affinity calculations with experimental data

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