Hybrid Nanofluid Flow Towards A Stagnation Point On A Stretching/Shrinking Cylinder
This paper examines the stagnation point flow towards a stretching/shrinking cylinder in a hybrid nanofluid. Here, copper (Cu) and alumina (Al2O3) are considered as the hybrid nanoparticles while water as the base fluid. The governing equations are reduced to the similarity equations using a similar...
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Nature Research
2020
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my.utem.eprints.250562021-04-16T12:09:54Z http://eprints.utem.edu.my/id/eprint/25056/ Hybrid Nanofluid Flow Towards A Stagnation Point On A Stretching/Shrinking Cylinder Ishak, Anuar Waini, Iskandar Pop, Ioan This paper examines the stagnation point flow towards a stretching/shrinking cylinder in a hybrid nanofluid. Here, copper (Cu) and alumina (Al2O3) are considered as the hybrid nanoparticles while water as the base fluid. The governing equations are reduced to the similarity equations using a similarity transformation. The resulting equations are solved numerically using the boundary value problem solver, bvp4c, available in the Matlab software. It is found that the heat transfer rate is greater for the hybrid nanofluid compared to the regular nanofluid as well as the regular fluid. Besides, the non-uniqueness of the solutions is observed for certain physical parameters. It is also noticed that the bifurcation of the solutions occurs in the shrinking regions. In addition, the heat transfer rate and the skin friction coefficients increase in the presence of nanoparticles and for larger Reynolds number. It is found that between the two solutions, only one of them is stable as time evolves. Nature Research 2020-06 Article PeerReviewed text en http://eprints.utem.edu.my/id/eprint/25056/2/WAINI2020%20SREP%20CYLINDER.PDF Ishak, Anuar and Waini, Iskandar and Pop, Ioan (2020) Hybrid Nanofluid Flow Towards A Stagnation Point On A Stretching/Shrinking Cylinder. Scientific Reports, 10 (1). 1- 12. ISSN 2045-2322 https://www.nature.com/articles/s41598-020-66126-2 10.1038/s41598-020-66126-2 |
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This paper examines the stagnation point flow towards a stretching/shrinking cylinder in a hybrid nanofluid. Here, copper (Cu) and alumina (Al2O3) are considered as the hybrid nanoparticles while water as the base fluid. The governing equations are reduced to the similarity equations using a similarity transformation. The resulting equations are solved numerically using the boundary value problem solver, bvp4c, available in the Matlab software. It is found that the heat transfer rate is greater for the hybrid nanofluid compared to the regular nanofluid as well as the regular fluid. Besides, the non-uniqueness of the solutions is observed for certain physical parameters. It is also noticed that the bifurcation of the solutions occurs in the shrinking regions. In addition, the heat transfer rate and the skin friction coefficients increase in the presence of nanoparticles and for larger Reynolds number. It is found that between the two solutions, only one of them is stable as time evolves. |
| format |
Article |
| author |
Ishak, Anuar Waini, Iskandar Pop, Ioan |
| spellingShingle |
Ishak, Anuar Waini, Iskandar Pop, Ioan Hybrid Nanofluid Flow Towards A Stagnation Point On A Stretching/Shrinking Cylinder |
| author_facet |
Ishak, Anuar Waini, Iskandar Pop, Ioan |
| author_sort |
Ishak, Anuar |
| title |
Hybrid Nanofluid Flow Towards A Stagnation Point On A Stretching/Shrinking Cylinder |
| title_short |
Hybrid Nanofluid Flow Towards A Stagnation Point On A Stretching/Shrinking Cylinder |
| title_full |
Hybrid Nanofluid Flow Towards A Stagnation Point On A Stretching/Shrinking Cylinder |
| title_fullStr |
Hybrid Nanofluid Flow Towards A Stagnation Point On A Stretching/Shrinking Cylinder |
| title_full_unstemmed |
Hybrid Nanofluid Flow Towards A Stagnation Point On A Stretching/Shrinking Cylinder |
| title_sort |
hybrid nanofluid flow towards a stagnation point on a stretching/shrinking cylinder |
| publisher |
Nature Research |
| publishDate |
2020 |
| url |
http://eprints.utem.edu.my/id/eprint/25056/2/WAINI2020%20SREP%20CYLINDER.PDF http://eprints.utem.edu.my/id/eprint/25056/ https://www.nature.com/articles/s41598-020-66126-2 |
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