The effect of using different based nanofluids on trapezoidal microchannels cooling performance

The effect of using different based nanofluids on trapezoidal microchannels cooling performance

Numerical investigations are performed to explore the aluminum trapezoidal microchannel heat sink (MCHS) cooling benefits by using different types of base nanofluids for laminar flow. Considering a diamond nanoparticle with particle volume fraction of 2% was mixed in four different base fluids inclu...

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Main Authors: Gunnasegaran P., Mohammed H.A., Shuaib N.H.
Other Authors: 35778031300
Format: Conference paper
Published: 2023
Subjects:
Ethylene glycol
Finite volume method
Glycerol
Heat sinks
Heat transfer coefficients
Laminar flow
Mechanical engineering
Microchannels
Mixtures
Nanodiamonds
Computational domains
Cooling performance
Diamond nano-particles
Flow and heat transfer
Numerical investigations
Particle volume fractions
Temperature profiles
Trapezoidal microchannels
Nanofluidics
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Institution: Universiti Tenaga Nasional
id my.uniten.dspace-30542
record_format dspace
spelling my.uniten.dspace-305422023-12-29T15:49:11Z The effect of using different based nanofluids on trapezoidal microchannels cooling performance Gunnasegaran P. Mohammed H.A. Shuaib N.H. 35778031300 15837504600 13907934500 Ethylene glycol Finite volume method Glycerol Heat sinks Heat transfer coefficients Laminar flow Mechanical engineering Microchannels Mixtures Nanodiamonds Computational domains Cooling performance Diamond nano-particles Flow and heat transfer Numerical investigations Particle volume fractions Temperature profiles Trapezoidal microchannels Nanofluidics Numerical investigations are performed to explore the aluminum trapezoidal microchannel heat sink (MCHS) cooling benefits by using different types of base nanofluids for laminar flow. Considering a diamond nanoparticle with particle volume fraction of 2% was mixed in four different base fluids including water, ethylene glycol (EG), oil, and glycerin. The threedimensional steady, laminar flow and heat transfer governing equations are solved using the finite volume method. The computational domain is taken as the entire heat sink including the inlet/outlet ports, wall plenums, and microchannels. The impact of different types of base fluids in these four mixture flows on the microchannel temperature profiles, heat transfer coefficients, pressure gradients, friction factor, and thermal resistance were examined. It is found that the best uniformities in heat transfer coefficient and temperature among the four mixture flows for diamond nanoparticle can be obtained in MCHS using glycerinbase nanofluid followed by engine oil-base nanofluid, EG-base nanofluid, and water-base nanofluid. It is found that, the use of high-Prandtl number base fluid such as glycerin is preferable and can be recommended to maximize the merits of adding nanoparticles for MCHS performance. Copyright � 2010 by ASME. Final 2023-12-29T07:49:10Z 2023-12-29T07:49:10Z 2010 Conference paper 10.1115/IMECE2010-38037 2-s2.0-84881473467 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84881473467&doi=10.1115%2fIMECE2010-38037&partnerID=40&md5=e1c46a82c9a83c59404ea102ea053e64 https://irepository.uniten.edu.my/handle/123456789/30542 7 PARTS A AND B 1265 1275 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 Ethylene glycol
Finite volume method
Glycerol
Heat sinks
Heat transfer coefficients
Laminar flow
Mechanical engineering
Microchannels
Mixtures
Nanodiamonds
Computational domains
Cooling performance
Diamond nano-particles
Flow and heat transfer
Numerical investigations
Particle volume fractions
Temperature profiles
Trapezoidal microchannels
Nanofluidics
spellingShingle Ethylene glycol
Finite volume method
Glycerol
Heat sinks
Heat transfer coefficients
Laminar flow
Mechanical engineering
Microchannels
Mixtures
Nanodiamonds
Computational domains
Cooling performance
Diamond nano-particles
Flow and heat transfer
Numerical investigations
Particle volume fractions
Temperature profiles
Trapezoidal microchannels
Nanofluidics
Gunnasegaran P.
Mohammed H.A.
Shuaib N.H.
The effect of using different based nanofluids on trapezoidal microchannels cooling performance
description Numerical investigations are performed to explore the aluminum trapezoidal microchannel heat sink (MCHS) cooling benefits by using different types of base nanofluids for laminar flow. Considering a diamond nanoparticle with particle volume fraction of 2% was mixed in four different base fluids including water, ethylene glycol (EG), oil, and glycerin. The threedimensional steady, laminar flow and heat transfer governing equations are solved using the finite volume method. The computational domain is taken as the entire heat sink including the inlet/outlet ports, wall plenums, and microchannels. The impact of different types of base fluids in these four mixture flows on the microchannel temperature profiles, heat transfer coefficients, pressure gradients, friction factor, and thermal resistance were examined. It is found that the best uniformities in heat transfer coefficient and temperature among the four mixture flows for diamond nanoparticle can be obtained in MCHS using glycerinbase nanofluid followed by engine oil-base nanofluid, EG-base nanofluid, and water-base nanofluid. It is found that, the use of high-Prandtl number base fluid such as glycerin is preferable and can be recommended to maximize the merits of adding nanoparticles for MCHS performance. Copyright � 2010 by ASME.
author2 35778031300
author_facet 35778031300
Gunnasegaran P.
Mohammed H.A.
Shuaib N.H.
format Conference paper
author Gunnasegaran P.
Mohammed H.A.
Shuaib N.H.
author_sort Gunnasegaran P.
title The effect of using different based nanofluids on trapezoidal microchannels cooling performance
title_short The effect of using different based nanofluids on trapezoidal microchannels cooling performance
title_full The effect of using different based nanofluids on trapezoidal microchannels cooling performance
title_fullStr The effect of using different based nanofluids on trapezoidal microchannels cooling performance
title_full_unstemmed The effect of using different based nanofluids on trapezoidal microchannels cooling performance
title_sort effect of using different based nanofluids on trapezoidal microchannels cooling performance
publishDate 2023
_version_ 1806424544362102784

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