Heat and mass transfer and thermodynamic analysis of power-law fluid flow in a porous microchannel
Heat and mass transfer and thermodynamic analysis of power-law fluid flow in a porous microchannel
Transfer of heat and mass and thermodynamic irreversibilities are investigated in a porous, parallel-plate microreactor in which the working fluid is non-Newtonian. The investigated microreactor features thick flat walls with uneven thicknesses, which can be subject to different thermal loads. The dimensionless governing equations of the resultant asymmetric problem are first derived theoretically and then solved numerically by using a finite volume technique. This results in two-dimensional solutions for the velocity, temperature and concentration fields as well as the distributions of Nusselt number and local and total entropy generations. The results clearly demonstrate the significance of the numerical value of the power-law index and departure from Newtonian behavior of the fluid. In particular, it is shown that by increasing the value of power-law index the Nusselt number on the wall decreases. This leads to the intensification of the temperature gradients in the system and therefore magnifies the local and total entropy generations. Also, it is shown that the wall thickness and thermal asymmetry can majorly affect the heat transfer process and thermodynamic irreversibility of the microreactor. It is noted that the current work is the first comprehensive study of heat transfer and entropy generation in porous micro-chemical reactor with non-Newtonian, power-law fluid.
2145-2164
Javidi Sarafan, Mahnaz
be9cfb62-286c-4ce8-9f6a-735dd265c4f7
Alizadeh, Rasool
f3a5f9c2-2165-4ef9-bbc9-a27f68209687
Fattahi, Abolfazl
f93dde21-9655-4ea3-961b-544b44adfd61
Valizadeh Ardalan, Mostafa
c75a7900-922f-4946-958f-7db73b0b0da3
Karimi, Nader
620646d6-27c9-4e1e-948f-f23e4a1e773a
24 April 2020
Javidi Sarafan, Mahnaz
be9cfb62-286c-4ce8-9f6a-735dd265c4f7
Alizadeh, Rasool
f3a5f9c2-2165-4ef9-bbc9-a27f68209687
Fattahi, Abolfazl
f93dde21-9655-4ea3-961b-544b44adfd61
Valizadeh Ardalan, Mostafa
c75a7900-922f-4946-958f-7db73b0b0da3
Karimi, Nader
620646d6-27c9-4e1e-948f-f23e4a1e773a
Javidi Sarafan, Mahnaz, Alizadeh, Rasool, Fattahi, Abolfazl, Valizadeh Ardalan, Mostafa and Karimi, Nader
(2020)
Heat and mass transfer and thermodynamic analysis of power-law fluid flow in a porous microchannel.
Journal of Thermal Analysis and Calorimetry, 141 (5), .
(doi:10.1007/s10973-020-09679-8).
Abstract
Transfer of heat and mass and thermodynamic irreversibilities are investigated in a porous, parallel-plate microreactor in which the working fluid is non-Newtonian. The investigated microreactor features thick flat walls with uneven thicknesses, which can be subject to different thermal loads. The dimensionless governing equations of the resultant asymmetric problem are first derived theoretically and then solved numerically by using a finite volume technique. This results in two-dimensional solutions for the velocity, temperature and concentration fields as well as the distributions of Nusselt number and local and total entropy generations. The results clearly demonstrate the significance of the numerical value of the power-law index and departure from Newtonian behavior of the fluid. In particular, it is shown that by increasing the value of power-law index the Nusselt number on the wall decreases. This leads to the intensification of the temperature gradients in the system and therefore magnifies the local and total entropy generations. Also, it is shown that the wall thickness and thermal asymmetry can majorly affect the heat transfer process and thermodynamic irreversibility of the microreactor. It is noted that the current work is the first comprehensive study of heat transfer and entropy generation in porous micro-chemical reactor with non-Newtonian, power-law fluid.
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Published date: 24 April 2020
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Local EPrints ID: 509130
URI: http://eprints.soton.ac.uk/id/eprint/509130
ISSN: 1388-6150
PURE UUID: 6b19bc17-7344-4772-a0cd-230cc93e777a
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Date deposited: 11 Feb 2026 17:53
Last modified: 12 Feb 2026 03:31
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Author:
Mahnaz Javidi Sarafan
Author:
Rasool Alizadeh
Author:
Abolfazl Fattahi
Author:
Mostafa Valizadeh Ardalan
Author:
Nader Karimi
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