Multiple fractional solutions for magnetic bio-nanofluid using Oldroyd-B model in a porous medium with ramped wall heating and variable velocity
Three different fractional models of Oldroyd-B fluid are considered in this work. Blood is taken as a special example of Oldroyd-B fluid (base fluid) with the suspension of gold nanoparticles, making the solution a biomagnetic non-Newtonian nanofluid. Based on three different definitions of fraction...
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my.utm.935272021-11-30T08:33:49Z http://eprints.utm.my/id/eprint/93527/ Multiple fractional solutions for magnetic bio-nanofluid using Oldroyd-B model in a porous medium with ramped wall heating and variable velocity Saqib, Muhammad Khan, Ilyas Chu, Yu Ming Qushairi, Ahmad Shafie, Sharidan Nisar, Kottakkaran Sooppy QA Mathematics Three different fractional models of Oldroyd-B fluid are considered in this work. Blood is taken as a special example of Oldroyd-B fluid (base fluid) with the suspension of gold nanoparticles, making the solution a biomagnetic non-Newtonian nanofluid. Based on three different definitions of fractional operators, three different models of the resulting nanofluid are developed. These three operators are based on the definitions of Caputo (C), Caputo-Fabrizio (CF), and Atnagana-Baleanu in the Caputo sense (ABC). Nanofluid is taken over an upright plate with ramped wall heating and time-dependent fluid velocity at the sidewall. The effects of magnetohydrodynamic (MHD) and porous medium are also considered. Triple fractional analysis is performed to solve the resulting three models, based on three different fractional operators. The Laplace transform is applied to each problem separately, and Zakian's numerical algorithm is used for the Laplace inversion. The solutions are presented in various graphs with physical arguments. Results are computed and shown in various plots. The empirical results indicate that, for ramped temperature, the temperature field is highest for the ABC derivative, followed by the CF and Caputo fractional derivatives. In contrast, for isothermal temperature, the temperature field of C-derivative is higher than the CF and ABC derivatives, respectively. It was noticed that the velocity field for the ABC derivative is higher than the CF and Caputo fractional derivatives for ramped velocity. However, the velocity field for the Caputo fractional derivative is lower than the ABC and CF for isothermal velocity. MDPI 2020-06-01 Article PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/93527/1/MuhammadSaqib2020_MultipleFractionalSolutionsforMagnetic.pdf Saqib, Muhammad and Khan, Ilyas and Chu, Yu Ming and Qushairi, Ahmad and Shafie, Sharidan and Nisar, Kottakkaran Sooppy (2020) Multiple fractional solutions for magnetic bio-nanofluid using Oldroyd-B model in a porous medium with ramped wall heating and variable velocity. Applied Sciences (Switzerland), 10 (11). pp. 1-19. ISSN 2076-3417 http://dx.doi.org/10.3390/app10113886 DOI:10.3390/app10113886 |
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QA Mathematics Saqib, Muhammad Khan, Ilyas Chu, Yu Ming Qushairi, Ahmad Shafie, Sharidan Nisar, Kottakkaran Sooppy Multiple fractional solutions for magnetic bio-nanofluid using Oldroyd-B model in a porous medium with ramped wall heating and variable velocity |
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Three different fractional models of Oldroyd-B fluid are considered in this work. Blood is taken as a special example of Oldroyd-B fluid (base fluid) with the suspension of gold nanoparticles, making the solution a biomagnetic non-Newtonian nanofluid. Based on three different definitions of fractional operators, three different models of the resulting nanofluid are developed. These three operators are based on the definitions of Caputo (C), Caputo-Fabrizio (CF), and Atnagana-Baleanu in the Caputo sense (ABC). Nanofluid is taken over an upright plate with ramped wall heating and time-dependent fluid velocity at the sidewall. The effects of magnetohydrodynamic (MHD) and porous medium are also considered. Triple fractional analysis is performed to solve the resulting three models, based on three different fractional operators. The Laplace transform is applied to each problem separately, and Zakian's numerical algorithm is used for the Laplace inversion. The solutions are presented in various graphs with physical arguments. Results are computed and shown in various plots. The empirical results indicate that, for ramped temperature, the temperature field is highest for the ABC derivative, followed by the CF and Caputo fractional derivatives. In contrast, for isothermal temperature, the temperature field of C-derivative is higher than the CF and ABC derivatives, respectively. It was noticed that the velocity field for the ABC derivative is higher than the CF and Caputo fractional derivatives for ramped velocity. However, the velocity field for the Caputo fractional derivative is lower than the ABC and CF for isothermal velocity. |
| format |
Article |
| author |
Saqib, Muhammad Khan, Ilyas Chu, Yu Ming Qushairi, Ahmad Shafie, Sharidan Nisar, Kottakkaran Sooppy |
| author_facet |
Saqib, Muhammad Khan, Ilyas Chu, Yu Ming Qushairi, Ahmad Shafie, Sharidan Nisar, Kottakkaran Sooppy |
| author_sort |
Saqib, Muhammad |
| title |
Multiple fractional solutions for magnetic bio-nanofluid using Oldroyd-B model in a porous medium with ramped wall heating and variable velocity |
| title_short |
Multiple fractional solutions for magnetic bio-nanofluid using Oldroyd-B model in a porous medium with ramped wall heating and variable velocity |
| title_full |
Multiple fractional solutions for magnetic bio-nanofluid using Oldroyd-B model in a porous medium with ramped wall heating and variable velocity |
| title_fullStr |
Multiple fractional solutions for magnetic bio-nanofluid using Oldroyd-B model in a porous medium with ramped wall heating and variable velocity |
| title_full_unstemmed |
Multiple fractional solutions for magnetic bio-nanofluid using Oldroyd-B model in a porous medium with ramped wall heating and variable velocity |
| title_sort |
multiple fractional solutions for magnetic bio-nanofluid using oldroyd-b model in a porous medium with ramped wall heating and variable velocity |
| publisher |
MDPI |
| publishDate |
2020 |
| url |
http://eprints.utm.my/id/eprint/93527/1/MuhammadSaqib2020_MultipleFractionalSolutionsforMagnetic.pdf http://eprints.utm.my/id/eprint/93527/ http://dx.doi.org/10.3390/app10113886 |
| _version_ |
1718926081161953280 |
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13.244368 |