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Generation of entropy and forced convection of heat in a conduit partially filled with porous media – local thermal non-equilibrium and exothermicity effects

Generation of entropy and forced convection of heat in a conduit partially filled with porous media – local thermal non-equilibrium and exothermicity effects
Generation of entropy and forced convection of heat in a conduit partially filled with porous media – local thermal non-equilibrium and exothermicity effects
The performance of a two-dimensional, axisymmetric channel with porous inserts attached to the walls is analyzed from the perspective of the first and second laws of thermodynamics. In this analysis, the flow is assumed to be fully developed with a constant heat flux imposed on the external surfaces of the walls, while heat could be internally generated by the fluid and solid phases. Using a Darcy-Brinkman model of momentum transport along with a two-equation thermal energy model, a convective model was developed to describe the thermal boundary conditions on the porous-fluid interface. The so-called Model A was employed on the walls of the channel and semi-analytical solutions were developed for the hydrodynamic, temperature, entropy generation fields and the Nusselt number, and an extensive parametric study was subsequently, conducted. The results indicated that the inclusion of exothermicity leads to significant modifications in the thermal and entropic behaviour of the system. In particular, through comparison with the recent literature, it was demonstrated that exothermicity can significantly impact the influence of the porous-fluid interface model upon the generation of both the local and total entropy within the system.
1359-4311
518-536
Torabi, M.
cca46013-f51a-4d5d-b8d0-7d54bcff33d0
Karimi, N.
620646d6-27c9-4e1e-948f-f23e4a1e773a
Zhang, K.
cff0adcf-4e17-4cec-a729-680dd21ec732
Peterson, G.P.
3d803f56-bd79-4dc5-9179-6ec8e1325fe1
Torabi, M.
cca46013-f51a-4d5d-b8d0-7d54bcff33d0
Karimi, N.
620646d6-27c9-4e1e-948f-f23e4a1e773a
Zhang, K.
cff0adcf-4e17-4cec-a729-680dd21ec732
Peterson, G.P.
3d803f56-bd79-4dc5-9179-6ec8e1325fe1

Torabi, M., Karimi, N., Zhang, K. and Peterson, G.P. (2016) Generation of entropy and forced convection of heat in a conduit partially filled with porous media – local thermal non-equilibrium and exothermicity effects. Applied Thermal Engineering, 106, 518-536. (doi:10.1016/j.applthermaleng.2016.06.036).

Record type: Article

Abstract

The performance of a two-dimensional, axisymmetric channel with porous inserts attached to the walls is analyzed from the perspective of the first and second laws of thermodynamics. In this analysis, the flow is assumed to be fully developed with a constant heat flux imposed on the external surfaces of the walls, while heat could be internally generated by the fluid and solid phases. Using a Darcy-Brinkman model of momentum transport along with a two-equation thermal energy model, a convective model was developed to describe the thermal boundary conditions on the porous-fluid interface. The so-called Model A was employed on the walls of the channel and semi-analytical solutions were developed for the hydrodynamic, temperature, entropy generation fields and the Nusselt number, and an extensive parametric study was subsequently, conducted. The results indicated that the inclusion of exothermicity leads to significant modifications in the thermal and entropic behaviour of the system. In particular, through comparison with the recent literature, it was demonstrated that exothermicity can significantly impact the influence of the porous-fluid interface model upon the generation of both the local and total entropy within the system.

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Published date: 5 August 2016
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Identifiers

Local EPrints ID: 508887
URI: http://eprints.soton.ac.uk/id/eprint/508887
DOI: doi:10.1016/j.applthermaleng.2016.06.036
ISSN: 1359-4311
PURE UUID: a4a8a022-0b22-45f5-a9dc-395cc355e6a9
ORCID for N. Karimi: ORCID iD orcid.org/0000-0002-4559-6245
ORCID for K. Zhang: ORCID iD orcid.org/0000-0003-0414-7387

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Date deposited: 05 Feb 2026 17:50
Last modified: 06 Feb 2026 03:12

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Contributors

Author: M. Torabi
Author: N. Karimi ORCID iD
Author: K. Zhang ORCID iD
Author: G.P. Peterson

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