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First and second laws of thermodynamics analysis of nanofluid flow inside a heat exchanger duct with wavy walls and a porous insert

First and second laws of thermodynamics analysis of nanofluid flow inside a heat exchanger duct with wavy walls and a porous insert
First and second laws of thermodynamics analysis of nanofluid flow inside a heat exchanger duct with wavy walls and a porous insert
This paper investigates the combined effects of using nanofluid, a porous insert and corrugated walls on heat transfer, pressure drop and entropy generation inside a heat exchanger duct. A series of numerical simulations are conducted for a number of pertinent parameters. It is shown that the waviness of the wall destructively affects the heat transfer process at low wave amplitudes and that it can improve heat convection only after exceeding a certain amplitude. Further, the pressure drop in the duct is found to be strongly influenced by the wave amplitude in a highly non-uniform way. The results, also, show that the second law and heat transfer performances of the system improve considerably by thickening the porous insert and decreasing its permeability. Yet, this is associated with higher pressure drops. It is argued that the hydraulic, thermal and entropic behaviours of the system are closely related to the interactions between a vortex formation near the wavy walls and nanofluid flow through the porous insert. Viscous irreversibilities are shown to be dominant in the core region of duct where the porous insert is placed. However, in the regions closer to the wavy walls, thermal entropy generation is the main source of irreversibility. A number of design recommendations are made on the basis of the findings of this study.
1388-6150
177–194
Akbarzadeh, M.
648c29d1-4b32-4498-84ee-96b1af90a8a4
Rashidi, S.
b7c17df5-2847-4610-b5fc-110d962de783
Karimi, N.
620646d6-27c9-4e1e-948f-f23e4a1e773a
Omar, N.
8bce496e-6ef3-4123-917f-967c7dc7c30c
Akbarzadeh, M.
648c29d1-4b32-4498-84ee-96b1af90a8a4
Rashidi, S.
b7c17df5-2847-4610-b5fc-110d962de783
Karimi, N.
620646d6-27c9-4e1e-948f-f23e4a1e773a
Omar, N.
8bce496e-6ef3-4123-917f-967c7dc7c30c

Akbarzadeh, M., Rashidi, S., Karimi, N. and Omar, N. (2018) First and second laws of thermodynamics analysis of nanofluid flow inside a heat exchanger duct with wavy walls and a porous insert. Journal of Thermal Analysis and Calorimetry, 135, 177–194. (doi:10.1007/s10973-018-7044-y).

Record type: Article

Abstract

This paper investigates the combined effects of using nanofluid, a porous insert and corrugated walls on heat transfer, pressure drop and entropy generation inside a heat exchanger duct. A series of numerical simulations are conducted for a number of pertinent parameters. It is shown that the waviness of the wall destructively affects the heat transfer process at low wave amplitudes and that it can improve heat convection only after exceeding a certain amplitude. Further, the pressure drop in the duct is found to be strongly influenced by the wave amplitude in a highly non-uniform way. The results, also, show that the second law and heat transfer performances of the system improve considerably by thickening the porous insert and decreasing its permeability. Yet, this is associated with higher pressure drops. It is argued that the hydraulic, thermal and entropic behaviours of the system are closely related to the interactions between a vortex formation near the wavy walls and nanofluid flow through the porous insert. Viscous irreversibilities are shown to be dominant in the core region of duct where the porous insert is placed. However, in the regions closer to the wavy walls, thermal entropy generation is the main source of irreversibility. A number of design recommendations are made on the basis of the findings of this study.

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More information

Published date: 9 February 2018

Identifiers

Local EPrints ID: 509058
URI: http://eprints.soton.ac.uk/id/eprint/509058
DOI: doi:10.1007/s10973-018-7044-y
ISSN: 1388-6150
PURE UUID: 9312b915-868f-4e21-8232-8b0eac8a3e9c
ORCID for N. Karimi: ORCID iD orcid.org/0000-0002-4559-6245

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Date deposited: 10 Feb 2026 17:52
Last modified: 11 Feb 2026 03:18

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Contributors

Author: M. Akbarzadeh
Author: S. Rashidi
Author: N. Karimi ORCID iD
Author: N. Omar

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