Free convection analysis for a nanofluid in a wavy porous domain subject to shape of nanoparticle and internal heat generation

Natural convection takes up the attention of researchers due to its expansive industrial and engineering utilizations i.e., heat exchangers and electronic cooling. In this work, free convection of Cu-H2O nanoliquid flow and heat transfer (HT) in porous circular wavy domain under the internal heat ge...

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Published in	International journal of modern physics. B, Condensed matter physics, statistical physics, applied physics Vol. 38; no. 15
Main Author	Fereidooni, Jalil
Format	Journal Article
Language	English
Published	Singapore World Scientific Publishing Company 20.06.2024 World Scientific Publishing Co. Pte., Ltd
Subjects	Convection cooling Finite element method Fluid flow Free convection Heat exchangers Heat generation Nanofluids Nanomaterials Nanoparticles Shape factor shape factor circular wavy enclosure finite element method Nusselt number Nanofluid free convection
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Abstract	Natural convection takes up the attention of researchers due to its expansive industrial and engineering utilizations i.e., heat exchangers and electronic cooling. In this work, free convection of Cu-H2O nanoliquid flow and heat transfer (HT) in porous circular wavy domain under the internal heat generation has been perused by finite element method (FEM). The shape factor of nanomaterials is also considered. The influences of active factors like Rayleigh number Ra, nanofluid concentration, wavy wall’s contraction ratio A, number of undulations D, and shape factor of nanomaterials m are explored on flow and HT specifications. Moreover, the correlations for average Nusselt number Nuave have been attained with regard to impressive parameters of current study. Findings show that Nuave soars with soaring nanofluid concentration and nanoparticles’ shape factor. Further, the outcomes characterize that Nuave may lessen up to 15.11% and 9.95% by detracting A from 0.1 to 0.3 and by mounting D from 4 to 12, respectively.
AbstractList	Natural convection takes up the attention of researchers due to its expansive industrial and engineering utilizations i.e., heat exchangers and electronic cooling. In this work, free convection of Cu-H 2 O nanoliquid flow and heat transfer (HT) in porous circular wavy domain under the internal heat generation has been perused by finite element method (FEM). The shape factor of nanomaterials is also considered. The influences of active factors like Rayleigh number Ra, nanofluid concentration, wavy wall’s contraction ratio A, number of undulations D, and shape factor of nanomaterials m are explored on flow and HT specifications. Moreover, the correlations for average Nusselt number Nu ave have been attained with regard to impressive parameters of current study. Findings show that Nu ave soars with soaring nanofluid concentration and nanoparticles’ shape factor. Further, the outcomes characterize that Nu ave may lessen up to 15.11% and 9.95% by detracting A from 0.1 to 0.3 and by mounting D from 4 to 12, respectively. Natural convection takes up the attention of researchers due to its expansive industrial and engineering utilizations i.e., heat exchangers and electronic cooling. In this work, free convection of Cu-H2O nanoliquid flow and heat transfer (HT) in porous circular wavy domain under the internal heat generation has been perused by finite element method (FEM). The shape factor of nanomaterials is also considered. The influences of active factors like Rayleigh number Ra, nanofluid concentration, wavy wall’s contraction ratio A, number of undulations D, and shape factor of nanomaterials m are explored on flow and HT specifications. Moreover, the correlations for average Nusselt number Nuave have been attained with regard to impressive parameters of current study. Findings show that Nuave soars with soaring nanofluid concentration and nanoparticles’ shape factor. Further, the outcomes characterize that Nuave may lessen up to 15.11% and 9.95% by detracting A from 0.1 to 0.3 and by mounting D from 4 to 12, respectively.
Author	Fereidooni, Jalil
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SubjectTerms	Convection cooling Finite element method Fluid flow Free convection Heat exchangers Heat generation Nanofluids Nanomaterials Nanoparticles Shape factor
Title	Free convection analysis for a nanofluid in a wavy porous domain subject to shape of nanoparticle and internal heat generation
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