Numerical investigations of flow and heat transfer enhancement in a corrugated channel using nanofluid

Numerical investigations of flow and heat transfer enhancement in a corrugated channel using nanofluid

In this paper, heat transfer and pressure drop characteristics of copper-water nanofluid flow through isothermally heated corrugated channel are numerically studied. A numerical simulation is carried out by solving the governing continuity, momentum and energy equations for laminar flow in curviline...

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Main Authors: Ahmed M.A., Shuaib N.H., Yusoff M.Z., Al-Falahi A.H.
Other Authors: 55463599800
Format: Article
Published: 2023
Subjects:
Corrugated channel
Finite difference method
Laminar heat transfer
Nanofluid
Heat transfer coefficients
Laminar flow
Nanoparticles
Numerical methods
Pressure drop
Reynolds number
Curvilinear coordinate
Energy equation
Finite difference
Flow and heat transfer
Heat transfer and pressure drop
Heat transfer and pressure drop characteristics
Heat Transfer enhancement
Increase in pressure
Nano-fluid
Nanofluid flow
Numerical investigations
Nanofluidics
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Institution: Universiti Tenaga Nasional
id my.uniten.dspace-29559
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spelling my.uniten.dspace-295592023-12-28T15:05:38Z Numerical investigations of flow and heat transfer enhancement in a corrugated channel using nanofluid Ahmed M.A. Shuaib N.H. Yusoff M.Z. Al-Falahi A.H. 55463599800 13907934500 7003976733 15750212500 Corrugated channel Finite difference method Laminar heat transfer Nanofluid Finite difference method Heat transfer coefficients Laminar flow Nanoparticles Numerical methods Pressure drop Reynolds number Corrugated channel Curvilinear coordinate Energy equation Finite difference Flow and heat transfer Heat transfer and pressure drop Heat transfer and pressure drop characteristics Heat Transfer enhancement Increase in pressure Laminar heat transfer Nano-fluid Nanofluid flow Numerical investigations Nanofluidics In this paper, heat transfer and pressure drop characteristics of copper-water nanofluid flow through isothermally heated corrugated channel are numerically studied. A numerical simulation is carried out by solving the governing continuity, momentum and energy equations for laminar flow in curvilinear coordinates using the Finite Difference (FD) approach. The investigation covers Reynolds number and nanoparticle volume fraction in the ranges of 100-1000 and 0-0.05 respectively. The effects of using the nanofluid on the heat transfer and pressure drop inside the channel are investigated. It is found that the heat transfer enhancement increases with increase in the volume fraction of the nanoparticle and Reynolds number, while there is slight increase in pressure drop. Comparisons of the present results with those available in literature are presented and discussed. � 2011 Elsevier Ltd. Final 2023-12-28T07:05:38Z 2023-12-28T07:05:38Z 2011 Article 10.1016/j.icheatmasstransfer.2011.08.013 2-s2.0-81055155851 https://www.scopus.com/inward/record.uri?eid=2-s2.0-81055155851&doi=10.1016%2fj.icheatmasstransfer.2011.08.013&partnerID=40&md5=af6c25792033a58114c2d885f30f5ef1 https://irepository.uniten.edu.my/handle/123456789/29559 38 10 1368 1375 Scopus
institution Universiti Tenaga Nasional
building UNITEN Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Tenaga Nasional
content_source UNITEN Institutional Repository
url_provider http://dspace.uniten.edu.my/
topic Corrugated channel
Finite difference method
Laminar heat transfer
Nanofluid
Finite difference method
Heat transfer coefficients
Laminar flow
Nanoparticles
Numerical methods
Pressure drop
Reynolds number
Corrugated channel
Curvilinear coordinate
Energy equation
Finite difference
Flow and heat transfer
Heat transfer and pressure drop
Heat transfer and pressure drop characteristics
Heat Transfer enhancement
Increase in pressure
Laminar heat transfer
Nano-fluid
Nanofluid flow
Numerical investigations
Nanofluidics
spellingShingle Corrugated channel
Finite difference method
Laminar heat transfer
Nanofluid
Finite difference method
Heat transfer coefficients
Laminar flow
Nanoparticles
Numerical methods
Pressure drop
Reynolds number
Corrugated channel
Curvilinear coordinate
Energy equation
Finite difference
Flow and heat transfer
Heat transfer and pressure drop
Heat transfer and pressure drop characteristics
Heat Transfer enhancement
Increase in pressure
Laminar heat transfer
Nano-fluid
Nanofluid flow
Numerical investigations
Nanofluidics
Ahmed M.A.
Shuaib N.H.
Yusoff M.Z.
Al-Falahi A.H.
Numerical investigations of flow and heat transfer enhancement in a corrugated channel using nanofluid
description In this paper, heat transfer and pressure drop characteristics of copper-water nanofluid flow through isothermally heated corrugated channel are numerically studied. A numerical simulation is carried out by solving the governing continuity, momentum and energy equations for laminar flow in curvilinear coordinates using the Finite Difference (FD) approach. The investigation covers Reynolds number and nanoparticle volume fraction in the ranges of 100-1000 and 0-0.05 respectively. The effects of using the nanofluid on the heat transfer and pressure drop inside the channel are investigated. It is found that the heat transfer enhancement increases with increase in the volume fraction of the nanoparticle and Reynolds number, while there is slight increase in pressure drop. Comparisons of the present results with those available in literature are presented and discussed. � 2011 Elsevier Ltd.
author2 55463599800
author_facet 55463599800
Ahmed M.A.
Shuaib N.H.
Yusoff M.Z.
Al-Falahi A.H.
format Article
author Ahmed M.A.
Shuaib N.H.
Yusoff M.Z.
Al-Falahi A.H.
author_sort Ahmed M.A.
title Numerical investigations of flow and heat transfer enhancement in a corrugated channel using nanofluid
title_short Numerical investigations of flow and heat transfer enhancement in a corrugated channel using nanofluid
title_full Numerical investigations of flow and heat transfer enhancement in a corrugated channel using nanofluid
title_fullStr Numerical investigations of flow and heat transfer enhancement in a corrugated channel using nanofluid
title_full_unstemmed Numerical investigations of flow and heat transfer enhancement in a corrugated channel using nanofluid
title_sort numerical investigations of flow and heat transfer enhancement in a corrugated channel using nanofluid
publishDate 2023
_version_ 1806425833181544448

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