On the unsteady forced convection in porous media subject to inlet flow disturbances-A pore-scale analysis
On the unsteady forced convection in porous media subject to inlet flow disturbances-A pore-scale analysis
Heat convection response of a porous medium to the harmonic disturbances in the inlet flow is investigated in a configuration consisting of several obstacles. Navier Stokes and energy equations are solved computationally and the average Nusselt number around the obstacles is favourably compared against the existing empirical data. The Nusselt number fluctuations are then examined, revealing that the dynamical relations between the inlet flow fluctuations as the input and those of Nusselt number as the output, can be nonlinear. The extent of encountered nonlinearity is determined quantitatively through introduction of a measure of nonlinearity. It is shown that increases in the pore-scale Reynolds number can strengthen the nonlinearity. However, this is not a global trend and further increases in Reynolds number may push the system dynamics back to linear. Application of the concept of transfer function to the identified linear cases reveals that the frequency response of the Nusselt number closely resembles a classical low-pass filter. Further, through a statistical analysis, it is shown that thermal response of the porous medium is strongly dominated by those of the first few obstacles. This highlights the importance of taking pore-scale approach in the dynamical problems that involve heat convection in porous media.
104639
Habib, Rabeeah
4a0a29f8-dcfe-4002-b369-d534c4e63985
Yadollahi, Bijan
76b7347b-00ec-482c-863f-9e6a60b1815b
Karimi, Nader
620646d6-27c9-4e1e-948f-f23e4a1e773a
Doranegard, Mohammad Hossein
c61a00cf-32a3-4902-a7f0-682ee871b363
1 July 2020
Habib, Rabeeah
4a0a29f8-dcfe-4002-b369-d534c4e63985
Yadollahi, Bijan
76b7347b-00ec-482c-863f-9e6a60b1815b
Karimi, Nader
620646d6-27c9-4e1e-948f-f23e4a1e773a
Doranegard, Mohammad Hossein
c61a00cf-32a3-4902-a7f0-682ee871b363
Habib, Rabeeah, Yadollahi, Bijan, Karimi, Nader and Doranegard, Mohammad Hossein
(2020)
On the unsteady forced convection in porous media subject to inlet flow disturbances-A pore-scale analysis.
International Communications in Heat and Mass Transfer, 116, .
(doi:10.1016/j.icheatmasstransfer.2020.104639).
Abstract
Heat convection response of a porous medium to the harmonic disturbances in the inlet flow is investigated in a configuration consisting of several obstacles. Navier Stokes and energy equations are solved computationally and the average Nusselt number around the obstacles is favourably compared against the existing empirical data. The Nusselt number fluctuations are then examined, revealing that the dynamical relations between the inlet flow fluctuations as the input and those of Nusselt number as the output, can be nonlinear. The extent of encountered nonlinearity is determined quantitatively through introduction of a measure of nonlinearity. It is shown that increases in the pore-scale Reynolds number can strengthen the nonlinearity. However, this is not a global trend and further increases in Reynolds number may push the system dynamics back to linear. Application of the concept of transfer function to the identified linear cases reveals that the frequency response of the Nusselt number closely resembles a classical low-pass filter. Further, through a statistical analysis, it is shown that thermal response of the porous medium is strongly dominated by those of the first few obstacles. This highlights the importance of taking pore-scale approach in the dynamical problems that involve heat convection in porous media.
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Published date: 1 July 2020
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Local EPrints ID: 509137
URI: http://eprints.soton.ac.uk/id/eprint/509137
ISSN: 0735-1933
PURE UUID: 4da36168-53ca-4156-9115-6e39433d557a
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Date deposited: 11 Feb 2026 17:57
Last modified: 12 Feb 2026 03:31
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Author:
Rabeeah Habib
Author:
Bijan Yadollahi
Author:
Nader Karimi
Author:
Mohammad Hossein Doranegard
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