A numerical study of laminar forced convection flow of Al2O 3-water nanofluid in triangular-corrugated channel
In this paper, laminar forced convection flow of Al2O 3-water nanofluid in triangular-corrugated channel is numerically studied. The governing mass, momentum and energy equations in body-fitted coordinates are solved using finite volume method. Reynolds number and nanoparticle volume fractions are i...
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my.uniten.dspace-293842023-12-28T12:12:49Z A numerical study of laminar forced convection flow of Al2O 3-water nanofluid in triangular-corrugated channel Ahmed M.A. Yusoff M.Z. Shuaib N.H. Ng K.C. 55463599800 7003976733 13907934500 55310814500 Finite volume method Forced convection Nanoparticles Nusselt number Pressure drop Reynolds number Volume fraction Body fitted coordinates Energy equation Laminar forced convections Nanofluids Nanoparticle diameter Nanoparticle volume fractions Thermal characteristics aluminum oxide conference proceeding convection diameter finite volume method laminar flow nanotechnology numerical model pressure drop Reynolds number Nanofluidics In this paper, laminar forced convection flow of Al2O 3-water nanofluid in triangular-corrugated channel is numerically studied. The governing mass, momentum and energy equations in body-fitted coordinates are solved using finite volume method. Reynolds number and nanoparticle volume fractions are in the ranges of 100-800 and 0-5%, respectively. The effect of Reynolds number, nanoparticles volume fraction and nanoparticles diameter on the flow and thermal characteristics are examined. The results indicate that the Nusselt number increased as Reynolds number and nanopartiles volume fraction increased but the pressure drop increased as well. Also, Nusselt number increased as the nanoparticle diameter decreased, while there is no effect of nanoparticle diameter on the pressure drop. � Published under licence by IOP Publishing Ltd. Final 2023-12-28T04:12:49Z 2023-12-28T04:12:49Z 2013 Conference paper 10.1088/1755-1315/16/1/012149 2-s2.0-84881107876 https://www.scopus.com/inward/record.uri?eid=2-s2.0-84881107876&doi=10.1088%2f1755-1315%2f16%2f1%2f012149&partnerID=40&md5=516570f1fd7e9d5b031eb13ad2f1c959 https://irepository.uniten.edu.my/handle/123456789/29384 16 1 12149 All Open Access; Gold Open Access Institute of Physics Publishing Scopus |
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Finite volume method Forced convection Nanoparticles Nusselt number Pressure drop Reynolds number Volume fraction Body fitted coordinates Energy equation Laminar forced convections Nanofluids Nanoparticle diameter Nanoparticle volume fractions Thermal characteristics aluminum oxide conference proceeding convection diameter finite volume method laminar flow nanotechnology numerical model pressure drop Reynolds number Nanofluidics |
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Finite volume method Forced convection Nanoparticles Nusselt number Pressure drop Reynolds number Volume fraction Body fitted coordinates Energy equation Laminar forced convections Nanofluids Nanoparticle diameter Nanoparticle volume fractions Thermal characteristics aluminum oxide conference proceeding convection diameter finite volume method laminar flow nanotechnology numerical model pressure drop Reynolds number Nanofluidics Ahmed M.A. Yusoff M.Z. Shuaib N.H. Ng K.C. A numerical study of laminar forced convection flow of Al2O 3-water nanofluid in triangular-corrugated channel |
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In this paper, laminar forced convection flow of Al2O 3-water nanofluid in triangular-corrugated channel is numerically studied. The governing mass, momentum and energy equations in body-fitted coordinates are solved using finite volume method. Reynolds number and nanoparticle volume fractions are in the ranges of 100-800 and 0-5%, respectively. The effect of Reynolds number, nanoparticles volume fraction and nanoparticles diameter on the flow and thermal characteristics are examined. The results indicate that the Nusselt number increased as Reynolds number and nanopartiles volume fraction increased but the pressure drop increased as well. Also, Nusselt number increased as the nanoparticle diameter decreased, while there is no effect of nanoparticle diameter on the pressure drop. � Published under licence by IOP Publishing Ltd. |
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55463599800 |
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55463599800 Ahmed M.A. Yusoff M.Z. Shuaib N.H. Ng K.C. |
| format |
Conference paper |
| author |
Ahmed M.A. Yusoff M.Z. Shuaib N.H. Ng K.C. |
| author_sort |
Ahmed M.A. |
| title |
A numerical study of laminar forced convection flow of Al2O 3-water nanofluid in triangular-corrugated channel |
| title_short |
A numerical study of laminar forced convection flow of Al2O 3-water nanofluid in triangular-corrugated channel |
| title_full |
A numerical study of laminar forced convection flow of Al2O 3-water nanofluid in triangular-corrugated channel |
| title_fullStr |
A numerical study of laminar forced convection flow of Al2O 3-water nanofluid in triangular-corrugated channel |
| title_full_unstemmed |
A numerical study of laminar forced convection flow of Al2O 3-water nanofluid in triangular-corrugated channel |
| title_sort |
numerical study of laminar forced convection flow of al2o 3-water nanofluid in triangular-corrugated channel |
| publisher |
Institute of Physics Publishing |
| publishDate |
2023 |
| _version_ |
1806425720452284416 |