Graphene-based Newtonian nanoliquid flows over an inclined permeable moving cylinder due to thermal stratification
Heat flux enhancement due to utilization of graphene, graphene nanoplatelets, and graphene oxides in water/ethylene-glycol based nanofluids over an inclined permeable cylinder is focused in the present study. The governing PDE are reformulated into non-linear ODE by applying similarity expressions....
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Vinca Inst Nuclear Sci
2021
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my.um.eprints.270972022-05-23T04:53:27Z http://eprints.um.edu.my/27097/ Graphene-based Newtonian nanoliquid flows over an inclined permeable moving cylinder due to thermal stratification Ghani, Siti Nur Ainsyah Yarmand, Hooman Noor, Noor Fadiya Mohd QA Mathematics Heat flux enhancement due to utilization of graphene, graphene nanoplatelets, and graphene oxides in water/ethylene-glycol based nanofluids over an inclined permeable cylinder is focused in the present study. The governing PDE are reformulated into non-linear ODE by applying similarity expressions. A shooting procedure is opted to reformulate the equations into boundary value problems which are solved by employing a numerical finite difference code in MATLAB. The effects of constructive parameters toward the model on non-dimensional velocity and temperature dissemination, reduced skin friction coefficient and reduced Nusselt number are graphically reported and discussed in details. It is observed that by increasing the thermal stratification and inclination angle, the temperature profile and Nusselt number for the selected nanofluids will be decreased. Vinca Inst Nuclear Sci 2021 Article PeerReviewed Ghani, Siti Nur Ainsyah and Yarmand, Hooman and Noor, Noor Fadiya Mohd (2021) Graphene-based Newtonian nanoliquid flows over an inclined permeable moving cylinder due to thermal stratification. Thermal Science, 25 (SI). S263-S269. ISSN 0354-9836, DOI https://doi.org/10.2298/TSCI21S2263G <https://doi.org/10.2298/TSCI21S2263G>. 10.2298/TSCI21S2263G |
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QA Mathematics Ghani, Siti Nur Ainsyah Yarmand, Hooman Noor, Noor Fadiya Mohd Graphene-based Newtonian nanoliquid flows over an inclined permeable moving cylinder due to thermal stratification |
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Heat flux enhancement due to utilization of graphene, graphene nanoplatelets, and graphene oxides in water/ethylene-glycol based nanofluids over an inclined permeable cylinder is focused in the present study. The governing PDE are reformulated into non-linear ODE by applying similarity expressions. A shooting procedure is opted to reformulate the equations into boundary value problems which are solved by employing a numerical finite difference code in MATLAB. The effects of constructive parameters toward the model on non-dimensional velocity and temperature dissemination, reduced skin friction coefficient and reduced Nusselt number are graphically reported and discussed in details. It is observed that by increasing the thermal stratification and inclination angle, the temperature profile and Nusselt number for the selected nanofluids will be decreased. |
| format |
Article |
| author |
Ghani, Siti Nur Ainsyah Yarmand, Hooman Noor, Noor Fadiya Mohd |
| author_facet |
Ghani, Siti Nur Ainsyah Yarmand, Hooman Noor, Noor Fadiya Mohd |
| author_sort |
Ghani, Siti Nur Ainsyah |
| title |
Graphene-based Newtonian nanoliquid flows over an inclined permeable moving cylinder due to thermal stratification |
| title_short |
Graphene-based Newtonian nanoliquid flows over an inclined permeable moving cylinder due to thermal stratification |
| title_full |
Graphene-based Newtonian nanoliquid flows over an inclined permeable moving cylinder due to thermal stratification |
| title_fullStr |
Graphene-based Newtonian nanoliquid flows over an inclined permeable moving cylinder due to thermal stratification |
| title_full_unstemmed |
Graphene-based Newtonian nanoliquid flows over an inclined permeable moving cylinder due to thermal stratification |
| title_sort |
graphene-based newtonian nanoliquid flows over an inclined permeable moving cylinder due to thermal stratification |
| publisher |
Vinca Inst Nuclear Sci |
| publishDate |
2021 |
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http://eprints.um.edu.my/27097/ |
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1735409499214184448 |
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13.160551 |