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Modelling of one-dimensional heterogeneous catalytic steam methane reforming over various catalysts in an adiabatic packed bed reactor

Modelling of one-dimensional heterogeneous catalytic steam methane reforming over various catalysts in an adiabatic packed bed reactor
Modelling of one-dimensional heterogeneous catalytic steam methane reforming over various catalysts in an adiabatic packed bed reactor
Kinetic data relevant to steam methane reforming (SMR) are often applied to catalysts and conditions for which they have not been derived. In this work, kinetic rates for the two SMR and water gas shift reactions were derived for 12 commonly used reforming catalysts based on conversion data obtained from the literature. Subsequently, these rates were tested in dynamic operation, steady-state, and equilibrium using a 1-D reactor model developed in-house with gPROMS model builder. Modelling outputs were further validated independently at equilibrium using the software chemical equilibrium with applications (CEA), and the literature. The effect of variables such as temperature, pressure, steam to carbon ratio (S/C), and gas mass flux (Gs) on the performance of the SMR process was then studied in terms of fuel and steam conversion (%), H2 purity (%), H2 yield (wt. % of CH4) and selectivity of the carbon-based products. A comparative study was then performed for the 12 catalysts. Some catalysts showed better activity owing to their fast kinetics when they are tested in mild industrial conditions, while others performed better in more severe industrial conditions, substantiating that the choice of a catalyst ought to depend on the operating conditions.
0360-3199
5112
Maqbool, Fahad
608013cc-6fab-45dd-b848-9f42e796bf10
Abbas, Syed Zaheer
3b02900e-fef6-40e1-acf7-96f26bfde4a8
Solis, Sergio Ramirez
2ccebfc7-bd51-47f2-86da-9f69222333cb
Dupont, V.
ed7d2d70-b6a3-4b52-9ca9-faec8cace4bf
Mahmud, T.
4eb0b46f-1c51-43e6-a97e-e9a75cb06689
Maqbool, Fahad
608013cc-6fab-45dd-b848-9f42e796bf10
Abbas, Syed Zaheer
3b02900e-fef6-40e1-acf7-96f26bfde4a8
Solis, Sergio Ramirez
2ccebfc7-bd51-47f2-86da-9f69222333cb
Dupont, V.
ed7d2d70-b6a3-4b52-9ca9-faec8cace4bf
Mahmud, T.
4eb0b46f-1c51-43e6-a97e-e9a75cb06689

Maqbool, Fahad, Abbas, Syed Zaheer, Solis, Sergio Ramirez, Dupont, V. and Mahmud, T. (2021) Modelling of one-dimensional heterogeneous catalytic steam methane reforming over various catalysts in an adiabatic packed bed reactor. International Journal of Hydrogen Energy, 46 (7), 5112. (doi:10.1016/j.ijhydene.2020.11.071).

Record type: Article

Abstract

Kinetic data relevant to steam methane reforming (SMR) are often applied to catalysts and conditions for which they have not been derived. In this work, kinetic rates for the two SMR and water gas shift reactions were derived for 12 commonly used reforming catalysts based on conversion data obtained from the literature. Subsequently, these rates were tested in dynamic operation, steady-state, and equilibrium using a 1-D reactor model developed in-house with gPROMS model builder. Modelling outputs were further validated independently at equilibrium using the software chemical equilibrium with applications (CEA), and the literature. The effect of variables such as temperature, pressure, steam to carbon ratio (S/C), and gas mass flux (Gs) on the performance of the SMR process was then studied in terms of fuel and steam conversion (%), H2 purity (%), H2 yield (wt. % of CH4) and selectivity of the carbon-based products. A comparative study was then performed for the 12 catalysts. Some catalysts showed better activity owing to their fast kinetics when they are tested in mild industrial conditions, while others performed better in more severe industrial conditions, substantiating that the choice of a catalyst ought to depend on the operating conditions.

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Accepted/In Press date: 8 November 2020
e-pub ahead of print date: 28 November 2020
Published date: 27 January 2021

Identifiers

Local EPrints ID: 474420
URI: http://eprints.soton.ac.uk/id/eprint/474420
DOI: doi:10.1016/j.ijhydene.2020.11.071
ISSN: 0360-3199
PURE UUID: 3e10d549-210c-415f-b7b3-ffb3f81650ee
ORCID for Syed Zaheer Abbas: ORCID iD orcid.org/0000-0002-8783-8572

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Date deposited: 21 Feb 2023 17:56
Last modified: 17 Mar 2024 04:18

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Contributors

Author: Fahad Maqbool
Author: Syed Zaheer Abbas ORCID iD
Author: Sergio Ramirez Solis
Author: V. Dupont
Author: T. Mahmud

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