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Experimental measurement of thermal conductivity and viscosity of Al2O3-GO (80:20) hybrid and mono nanofluids: A new correlation

This study examines the thermophysical properties of Aluminum oxide (Al2O3) and graphene oxide (GO) based mono and hybrid nanofluid mixture at different volume concentrations for heat transfer application. Firstly, Al2O3 and GO nanoparticles were mixed with base fluid (deionized water) separately at...

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Main Authors: Selvarajoo K., Wanatasanappan V.V., Luon N.Y.
Other Authors: 57213418247
Format: Article
Published: Elsevier Ltd 2025
Subjects:
Alumina
Aluminum oxide
Deionized water
Graphene
Heat transfer
Nanofluidics
Regression analysis
Thermal conductivity of liquids
Viscosity measurement
Deionised waters
Graphene oxides
Heat transfer applications
Hybrid nanofluid
Measurements of
Nanofluids
New correlations
Oxide nanoparticles
Volume concentration
Zeta potential measurements
Viscosity
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spelling my.uniten.dspace-366282025-03-03T15:43:30Z Experimental measurement of thermal conductivity and viscosity of Al2O3-GO (80:20) hybrid and mono nanofluids: A new correlation Selvarajoo K. Wanatasanappan V.V. Luon N.Y. 57213418247 57217224948 58482945800 Alumina Aluminum oxide Deionized water Graphene Heat transfer Nanofluidics Regression analysis Thermal conductivity of liquids Viscosity measurement Deionised waters Graphene oxides Heat transfer applications Hybrid nanofluid Measurements of Nanofluids New correlations Oxide nanoparticles Volume concentration Zeta potential measurements Viscosity This study examines the thermophysical properties of Aluminum oxide (Al2O3) and graphene oxide (GO) based mono and hybrid nanofluid mixture at different volume concentrations for heat transfer application. Firstly, Al2O3 and GO nanoparticles were mixed with base fluid (deionized water) separately at 1.0 % of volume concentration for mono nanofluid preparation. Then, Al2O3-GO hybrid nanofluid (80:20) was prepared for volume concentrations of 0.25 %, 0.5 %, 0.75 % and 1.0 %. The stability of both nanofluids was evaluated based on Zeta potential and pH measurements. Meanwhile, the viscosity and thermal conductivity were investigated for temperatures starting from 30 �C to 50 �C. The experimental thermal conductivity and viscosity measurements were correlated using the analytical regression method to predict the thermal conductivity and dynamic viscosity of Al2O3-GO hybrid nanofluid. The maximum thermal conductivity improvement of hybrid Al2O3-GO nanofluid (1 %) was about 4.30 % and 4.34 % higher than Al2O3 and GO mono nanofluid, respectively. In contrast, the viscosity of 1 % Al2O3-GO hybrid nanofluid showed the least reduction of 4.6 %, which is 4.1 % and 6.6 % less than both Al2O3 and GO mono nanofluids. Compared to experimental values, the new model resulted in a high level of predictive accuracy for both thermal conductivity and viscosity, with a maximum error of 6 % and 4 %. ? 2024 Elsevier B.V. Final 2025-03-03T07:43:30Z 2025-03-03T07:43:30Z 2024 Article 10.1016/j.diamond.2024.111018 2-s2.0-85188186157 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85188186157&doi=10.1016%2fj.diamond.2024.111018&partnerID=40&md5=89c8366300d20f7a5df83db11b90054c https://irepository.uniten.edu.my/handle/123456789/36628 144 111018 Elsevier Ltd 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 Alumina
Aluminum oxide
Deionized water
Graphene
Heat transfer
Nanofluidics
Regression analysis
Thermal conductivity of liquids
Viscosity measurement
Deionised waters
Graphene oxides
Heat transfer applications
Hybrid nanofluid
Measurements of
Nanofluids
New correlations
Oxide nanoparticles
Volume concentration
Zeta potential measurements
Viscosity
spellingShingle Alumina
Aluminum oxide
Deionized water
Graphene
Heat transfer
Nanofluidics
Regression analysis
Thermal conductivity of liquids
Viscosity measurement
Deionised waters
Graphene oxides
Heat transfer applications
Hybrid nanofluid
Measurements of
Nanofluids
New correlations
Oxide nanoparticles
Volume concentration
Zeta potential measurements
Viscosity
Selvarajoo K.
Wanatasanappan V.V.
Luon N.Y.
Experimental measurement of thermal conductivity and viscosity of Al2O3-GO (80:20) hybrid and mono nanofluids: A new correlation
description This study examines the thermophysical properties of Aluminum oxide (Al2O3) and graphene oxide (GO) based mono and hybrid nanofluid mixture at different volume concentrations for heat transfer application. Firstly, Al2O3 and GO nanoparticles were mixed with base fluid (deionized water) separately at 1.0 % of volume concentration for mono nanofluid preparation. Then, Al2O3-GO hybrid nanofluid (80:20) was prepared for volume concentrations of 0.25 %, 0.5 %, 0.75 % and 1.0 %. The stability of both nanofluids was evaluated based on Zeta potential and pH measurements. Meanwhile, the viscosity and thermal conductivity were investigated for temperatures starting from 30 �C to 50 �C. The experimental thermal conductivity and viscosity measurements were correlated using the analytical regression method to predict the thermal conductivity and dynamic viscosity of Al2O3-GO hybrid nanofluid. The maximum thermal conductivity improvement of hybrid Al2O3-GO nanofluid (1 %) was about 4.30 % and 4.34 % higher than Al2O3 and GO mono nanofluid, respectively. In contrast, the viscosity of 1 % Al2O3-GO hybrid nanofluid showed the least reduction of 4.6 %, which is 4.1 % and 6.6 % less than both Al2O3 and GO mono nanofluids. Compared to experimental values, the new model resulted in a high level of predictive accuracy for both thermal conductivity and viscosity, with a maximum error of 6 % and 4 %. ? 2024 Elsevier B.V.
author2 57213418247
author_facet 57213418247
Selvarajoo K.
Wanatasanappan V.V.
Luon N.Y.
format Article
author Selvarajoo K.
Wanatasanappan V.V.
Luon N.Y.
author_sort Selvarajoo K.
title Experimental measurement of thermal conductivity and viscosity of Al2O3-GO (80:20) hybrid and mono nanofluids: A new correlation
title_short Experimental measurement of thermal conductivity and viscosity of Al2O3-GO (80:20) hybrid and mono nanofluids: A new correlation
title_full Experimental measurement of thermal conductivity and viscosity of Al2O3-GO (80:20) hybrid and mono nanofluids: A new correlation
title_fullStr Experimental measurement of thermal conductivity and viscosity of Al2O3-GO (80:20) hybrid and mono nanofluids: A new correlation
title_full_unstemmed Experimental measurement of thermal conductivity and viscosity of Al2O3-GO (80:20) hybrid and mono nanofluids: A new correlation
title_sort experimental measurement of thermal conductivity and viscosity of al2o3-go (80:20) hybrid and mono nanofluids: a new correlation
publisher Elsevier Ltd
publishDate 2025
_version_ 1825816189953114112
score 13.244109

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