Effects of g-jitter and radiation on three-dimensional double diffusion stagnation point nanofluid flow
The unsteady double diffusion of the boundary layer with the nanofluid flow near a three-dimensional (3D) stagnation point body is studied under a microgravity environment. The effects of g-jitter and thermal radiation exist under the microgravity environment, where there is a gravitational field wi...
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Springer Science and Business Media B.V.
2020
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| 在線閱讀: | http://eprints.utm.my/id/eprint/91485/1/SharidanShafie2020_EffectsofGJitterandRadiationonThree.pdf http://eprints.utm.my/id/eprint/91485/ http://dx.doi.org/10.1007/s10483-020-2666-6 |
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my.utm.914852021-06-30T12:17:13Z http://eprints.utm.my/id/eprint/91485/ Effects of g-jitter and radiation on three-dimensional double diffusion stagnation point nanofluid flow A. Kamal, M. H. Rawi, N. A. Ali, A. Shafie, Sharidan QA Mathematics The unsteady double diffusion of the boundary layer with the nanofluid flow near a three-dimensional (3D) stagnation point body is studied under a microgravity environment. The effects of g-jitter and thermal radiation exist under the microgravity environment, where there is a gravitational field with fluctuations. The flow problem is mathematically formulated into a system of equations derived from the physical laws and principles under the no-slip boundary condition. With the semi-similar transformation technique, the dimensional system of equations is reduced into a dimensionless system of equations, where the dependent variables of the problem are lessened. A numerical solution for the flow problem derived from the system of dimensionless partial differential equations is obtained with the Keller box method, which is an implicit finite difference approach. The effects studied are analyzed in terms of the physical quantities of principle interest with the fluid behavior characteristics, the heat transfer properties, and the concentration distributions. The results show that the value of the curvature ratio parameter represents the geometrical shape of the boundary body, where the stagnation point is located. The increased modulation amplitude parameter produces a fluctuating behavior on all physical quantities studied, where the fluctuating range becomes smaller when the oscillation frequency increases. Moreover, the addition of Cu nanoparticles enhances the thermal conductivity of the heat flux, and the thermal radiation could increase the heat transfer properties. Springer Science and Business Media B.V. 2020-10 Article PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/91485/1/SharidanShafie2020_EffectsofGJitterandRadiationonThree.pdf A. Kamal, M. H. and Rawi, N. A. and Ali, A. and Shafie, Sharidan (2020) Effects of g-jitter and radiation on three-dimensional double diffusion stagnation point nanofluid flow. Applied Mathematics and Mechanics (English Edition), 41 (11). pp. 1707-1722. ISSN 0253-4827 http://dx.doi.org/10.1007/s10483-020-2666-6 DOI:10.1007/s10483-020-2666-6 |
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QA Mathematics A. Kamal, M. H. Rawi, N. A. Ali, A. Shafie, Sharidan Effects of g-jitter and radiation on three-dimensional double diffusion stagnation point nanofluid flow |
| description |
The unsteady double diffusion of the boundary layer with the nanofluid flow near a three-dimensional (3D) stagnation point body is studied under a microgravity environment. The effects of g-jitter and thermal radiation exist under the microgravity environment, where there is a gravitational field with fluctuations. The flow problem is mathematically formulated into a system of equations derived from the physical laws and principles under the no-slip boundary condition. With the semi-similar transformation technique, the dimensional system of equations is reduced into a dimensionless system of equations, where the dependent variables of the problem are lessened. A numerical solution for the flow problem derived from the system of dimensionless partial differential equations is obtained with the Keller box method, which is an implicit finite difference approach. The effects studied are analyzed in terms of the physical quantities of principle interest with the fluid behavior characteristics, the heat transfer properties, and the concentration distributions. The results show that the value of the curvature ratio parameter represents the geometrical shape of the boundary body, where the stagnation point is located. The increased modulation amplitude parameter produces a fluctuating behavior on all physical quantities studied, where the fluctuating range becomes smaller when the oscillation frequency increases. Moreover, the addition of Cu nanoparticles enhances the thermal conductivity of the heat flux, and the thermal radiation could increase the heat transfer properties. |
| format |
Article |
| author |
A. Kamal, M. H. Rawi, N. A. Ali, A. Shafie, Sharidan |
| author_facet |
A. Kamal, M. H. Rawi, N. A. Ali, A. Shafie, Sharidan |
| author_sort |
A. Kamal, M. H. |
| title |
Effects of g-jitter and radiation on three-dimensional double diffusion stagnation point nanofluid flow |
| title_short |
Effects of g-jitter and radiation on three-dimensional double diffusion stagnation point nanofluid flow |
| title_full |
Effects of g-jitter and radiation on three-dimensional double diffusion stagnation point nanofluid flow |
| title_fullStr |
Effects of g-jitter and radiation on three-dimensional double diffusion stagnation point nanofluid flow |
| title_full_unstemmed |
Effects of g-jitter and radiation on three-dimensional double diffusion stagnation point nanofluid flow |
| title_sort |
effects of g-jitter and radiation on three-dimensional double diffusion stagnation point nanofluid flow |
| publisher |
Springer Science and Business Media B.V. |
| publishDate |
2020 |
| url |
http://eprints.utm.my/id/eprint/91485/1/SharidanShafie2020_EffectsofGJitterandRadiationonThree.pdf http://eprints.utm.my/id/eprint/91485/ http://dx.doi.org/10.1007/s10483-020-2666-6 |
| _version_ |
1705056720439476224 |
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13.251813 |