Mathematical analysis of the flow and heat transfer of Ag-Cu hybrid nanofluid over a stretching/shrinking surface with convective boundary condition and viscous dissipation
Hybrid nanofluid has a vast potential of applications in the cooling system due to the high thermal conductivity. This study emphasizes on the impact of the convective boundary condition and viscous dissipation to the heat transfer of Ag-Cu hybrid nanofluid. A suitable similarity transformation is u...
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2020
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| Online Access: | http://umpir.ump.edu.my/id/eprint/30355/1/Mathematical%20analysis%20of%20the%20flow%20and%20heat%20transfer%20of%20AgCu%20hybrid.pdf http://umpir.ump.edu.my/id/eprint/30355/ https://doi.org/10.15282/daam.v1i01.5105 https://doi.org/10.15282/daam.v1i01.5105 |
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my.ump.umpir.303552020-12-29T03:50:02Z http://umpir.ump.edu.my/id/eprint/30355/ Mathematical analysis of the flow and heat transfer of Ag-Cu hybrid nanofluid over a stretching/shrinking surface with convective boundary condition and viscous dissipation Rahimah, Jusoh K., Naganthran A., Jamaludin M. H., Ariff M. F. M., Basir I., Pop QA Mathematics TK Electrical engineering. Electronics Nuclear engineering Hybrid nanofluid has a vast potential of applications in the cooling system due to the high thermal conductivity. This study emphasizes on the impact of the convective boundary condition and viscous dissipation to the heat transfer of Ag-Cu hybrid nanofluid. A suitable similarity transformation is used to transform the partial differential equations of mass, momentum and energy into the ordinary differential equations. A finite difference code known as bvp4c in Matlab is employed to generate the numerical solutions. Stability analysis is conducted since dual solutions are generated in this study and the first solution exhibits the stability properties. The influence of variations in the suction parameter, viscous dissipation, nanoparticles concentration and Biot number on the on the temperature and velocity profiles of the hybrid nanofluid are portrayed. The rate of heat transfer is prominently higher with the augmentation of the Biot number and Ag nanoparticles concentration. Penerbit UMP 2020 Article PeerReviewed pdf en cc_by_nc_nd_4 http://umpir.ump.edu.my/id/eprint/30355/1/Mathematical%20analysis%20of%20the%20flow%20and%20heat%20transfer%20of%20AgCu%20hybrid.pdf Rahimah, Jusoh and K., Naganthran and A., Jamaludin and M. H., Ariff and M. F. M., Basir and I., Pop (2020) Mathematical analysis of the flow and heat transfer of Ag-Cu hybrid nanofluid over a stretching/shrinking surface with convective boundary condition and viscous dissipation. Data Analytics and Applied Mathematics (DAAM), 1 (1). pp. 11-22. ISSN 2773-4854 https://doi.org/10.15282/daam.v1i01.5105 https://doi.org/10.15282/daam.v1i01.5105 |
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QA Mathematics TK Electrical engineering. Electronics Nuclear engineering Rahimah, Jusoh K., Naganthran A., Jamaludin M. H., Ariff M. F. M., Basir I., Pop Mathematical analysis of the flow and heat transfer of Ag-Cu hybrid nanofluid over a stretching/shrinking surface with convective boundary condition and viscous dissipation |
| description |
Hybrid nanofluid has a vast potential of applications in the cooling system due to the high thermal conductivity. This study emphasizes on the impact of the convective boundary condition and viscous dissipation to the heat transfer of Ag-Cu hybrid nanofluid. A suitable similarity transformation is used to transform the partial differential equations of mass, momentum and energy into the ordinary differential equations. A finite difference code known as bvp4c in Matlab is employed to generate the numerical solutions. Stability analysis is conducted since dual solutions are generated in this study and the first solution exhibits the stability properties. The influence of variations in the suction parameter, viscous dissipation, nanoparticles concentration and Biot number on the on the temperature and velocity profiles of the hybrid nanofluid are portrayed. The rate of heat transfer is prominently higher with the augmentation of the Biot number and Ag nanoparticles concentration. |
| format |
Article |
| author |
Rahimah, Jusoh K., Naganthran A., Jamaludin M. H., Ariff M. F. M., Basir I., Pop |
| author_facet |
Rahimah, Jusoh K., Naganthran A., Jamaludin M. H., Ariff M. F. M., Basir I., Pop |
| author_sort |
Rahimah, Jusoh |
| title |
Mathematical analysis of the flow and heat transfer of Ag-Cu hybrid nanofluid over a stretching/shrinking surface with convective boundary condition and viscous dissipation |
| title_short |
Mathematical analysis of the flow and heat transfer of Ag-Cu hybrid nanofluid over a stretching/shrinking surface with convective boundary condition and viscous dissipation |
| title_full |
Mathematical analysis of the flow and heat transfer of Ag-Cu hybrid nanofluid over a stretching/shrinking surface with convective boundary condition and viscous dissipation |
| title_fullStr |
Mathematical analysis of the flow and heat transfer of Ag-Cu hybrid nanofluid over a stretching/shrinking surface with convective boundary condition and viscous dissipation |
| title_full_unstemmed |
Mathematical analysis of the flow and heat transfer of Ag-Cu hybrid nanofluid over a stretching/shrinking surface with convective boundary condition and viscous dissipation |
| title_sort |
mathematical analysis of the flow and heat transfer of ag-cu hybrid nanofluid over a stretching/shrinking surface with convective boundary condition and viscous dissipation |
| publisher |
Penerbit UMP |
| publishDate |
2020 |
| url |
http://umpir.ump.edu.my/id/eprint/30355/1/Mathematical%20analysis%20of%20the%20flow%20and%20heat%20transfer%20of%20AgCu%20hybrid.pdf http://umpir.ump.edu.my/id/eprint/30355/ https://doi.org/10.15282/daam.v1i01.5105 https://doi.org/10.15282/daam.v1i01.5105 |
| _version_ |
1687393801713221632 |
| score |
13.211869 |