General kinetic modeling of the selective hydrogenation of 2-methyl-3-butyn-2-ol over a commercial palladium-based catalyst
General kinetic modeling of the selective hydrogenation of 2-methyl-3-butyn-2-ol over a commercial palladium-based catalyst
A general kinetic model has been developed to simulate the three-phase solvent-free hydrogenation of 2-methyl-3-butyn-2-ol (MBY) over a commercial palladium-based catalyst. A Langmuir–Hinshelwood mechanism with noncompetitive adsorption between hydrogen and the organic species is assumed. Gas–liquid mass-transfer resistance is included in the model. Experiments were carried out in a stirred slurry reactor to estimate the kinetic parameters. The proposed model is able to predict the concentration profiles of the species involved during MBY hydrogenation, at varying temperatures (313–353 K), pressures (3.0–10.0 bar), and catalyst loadings (0.075–0.175 wt %). The model predictions were successfully validated using additional experimental runs conducted under different operating conditions and at a lower initial concentration of MBY.
Vernuccio, S.
4bafd7f3-0943-4f6c-bc78-b4026516ccdb
Medlock, J.
3db8a827-a256-44a7-a479-f525ebcacdde
von Rohr, Philipp Rudolf
733c7f0c-8b65-45fa-a5ed-e378f18f131b
2 November 2015
Vernuccio, S.
4bafd7f3-0943-4f6c-bc78-b4026516ccdb
Medlock, J.
3db8a827-a256-44a7-a479-f525ebcacdde
von Rohr, Philipp Rudolf
733c7f0c-8b65-45fa-a5ed-e378f18f131b
Vernuccio, S., Medlock, J. and von Rohr, Philipp Rudolf
(2015)
General kinetic modeling of the selective hydrogenation of 2-methyl-3-butyn-2-ol over a commercial palladium-based catalyst.
Industrial and Engineering Chemistry Research, 54 (46).
(doi:10.1021/acs.iecr.5b03424).
Abstract
A general kinetic model has been developed to simulate the three-phase solvent-free hydrogenation of 2-methyl-3-butyn-2-ol (MBY) over a commercial palladium-based catalyst. A Langmuir–Hinshelwood mechanism with noncompetitive adsorption between hydrogen and the organic species is assumed. Gas–liquid mass-transfer resistance is included in the model. Experiments were carried out in a stirred slurry reactor to estimate the kinetic parameters. The proposed model is able to predict the concentration profiles of the species involved during MBY hydrogenation, at varying temperatures (313–353 K), pressures (3.0–10.0 bar), and catalyst loadings (0.075–0.175 wt %). The model predictions were successfully validated using additional experimental runs conducted under different operating conditions and at a lower initial concentration of MBY.
Text
ie5b03424_si_001
- Accepted Manuscript
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Published date: 2 November 2015
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Local EPrints ID: 495804
URI: http://eprints.soton.ac.uk/id/eprint/495804
ISSN: 0888-5885
PURE UUID: bfd78a65-d1ea-4ec8-931a-6621f98cc217
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Date deposited: 22 Nov 2024 18:05
Last modified: 23 Nov 2024 03:13
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Author:
S. Vernuccio
Author:
J. Medlock
Author:
Philipp Rudolf von Rohr
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