Hydrogenation of 2-methyl-3-butyn-2-ol over a Pd/ZnO catalyst: kinetic model and selectivity study
Hydrogenation of 2-methyl-3-butyn-2-ol over a Pd/ZnO catalyst: kinetic model and selectivity study
The three-phase hydrogenation of 2-methyl-3-butyn-2-ol has been studied over a Pd/ZnO catalyst. A Langmuir–Hinshelwood mechanism was applied assuming noncompetitive adsorption between hydrogen and organic molecules on the catalyst active sites. All experimental runs used for the modeling have been obtained in the intrinsic kinetic regime in order to exclude any mass transfer limitation. An optimization procedure allowed the estimation of the kinetic and adsorption parameters governing the process. The results revealed that the proposed model accurately describes the behavior of the system in the typical operating ranges of industrial reactors. The performance of the catalyst in terms of selectivity to 2-methyl-3-buten-2-ol and initial activity is found to be higher compared with that of a commercial Lindlar catalyst under the same operating conditions. The mathematical model, successfully validated, is able to accurately predict the selectivity of the process.
445-453
Vernuccio, Sergio
4bafd7f3-0943-4f6c-bc78-b4026516ccdb
Goy, R.
7e282f7b-89ef-4702-a4e7-9dd30d5f8987
von Rohr, Ph. Rudolf
a5c1a2bd-954e-4c01-ba23-e26555baca69
Medlock, J.
0163c6df-e2b6-4099-9cb4-fc288e9b4a75
Bonrath, W.
11f3d864-95b6-40b9-9f88-115cd161946b
30 June 2016
Vernuccio, Sergio
4bafd7f3-0943-4f6c-bc78-b4026516ccdb
Goy, R.
7e282f7b-89ef-4702-a4e7-9dd30d5f8987
von Rohr, Ph. Rudolf
a5c1a2bd-954e-4c01-ba23-e26555baca69
Medlock, J.
0163c6df-e2b6-4099-9cb4-fc288e9b4a75
Bonrath, W.
11f3d864-95b6-40b9-9f88-115cd161946b
Vernuccio, Sergio, Goy, R., von Rohr, Ph. Rudolf, Medlock, J. and Bonrath, W.
(2016)
Hydrogenation of 2-methyl-3-butyn-2-ol over a Pd/ZnO catalyst: kinetic model and selectivity study.
Reaction Chemistry and Engineering, (4), .
(doi:10.1039/C6RE00093B).
Abstract
The three-phase hydrogenation of 2-methyl-3-butyn-2-ol has been studied over a Pd/ZnO catalyst. A Langmuir–Hinshelwood mechanism was applied assuming noncompetitive adsorption between hydrogen and organic molecules on the catalyst active sites. All experimental runs used for the modeling have been obtained in the intrinsic kinetic regime in order to exclude any mass transfer limitation. An optimization procedure allowed the estimation of the kinetic and adsorption parameters governing the process. The results revealed that the proposed model accurately describes the behavior of the system in the typical operating ranges of industrial reactors. The performance of the catalyst in terms of selectivity to 2-methyl-3-buten-2-ol and initial activity is found to be higher compared with that of a commercial Lindlar catalyst under the same operating conditions. The mathematical model, successfully validated, is able to accurately predict the selectivity of the process.
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Accepted/In Press date: 30 June 2016
Published date: 30 June 2016
Identifiers
Local EPrints ID: 495783
URI: http://eprints.soton.ac.uk/id/eprint/495783
ISSN: 2058-9883
PURE UUID: d545c6d3-4cc4-454e-9730-489d97e944d9
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Date deposited: 22 Nov 2024 17:42
Last modified: 23 Nov 2024 03:13
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Author:
Sergio Vernuccio
Author:
R. Goy
Author:
Ph. Rudolf von Rohr
Author:
J. Medlock
Author:
W. Bonrath
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