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MHD slip flow and heat transfer of UCM fluid with the effect of suction/injection due to stretching sheet: OHAM solution

Guled, C. N. / Tawade, J. V. / Nandeppanavar, Mahantesh M. / Saraf, A. R.

In this study, the optimal homotopy analysis (OHAM) technique has been examined to solve the laminar magnetohydrodynamic flow (MHD flow) on the upper‐convected Maxwell fluid on an isothermal porous stretch surface. A study on the effects of parameters like the relaxation time, suction/injection velocity, as well as the magnetic number on velocity over a sheet was conducted and these results are compared to the corresponding previously available results. It was observed that the thickness of the boundary layer is lowered by enhancing $s$ , $β$ , and $M$ values. Opposing this, it was observed that large $β$ values increase the $f ″ (0)$ magnituIIde. It is found that OHAM is an efficient method capable of giving a greater degree of accuracy in numerical values of flow parameters even after fewer approximations.

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MHD slip flow and heat transfer of UCM fluid with the effect of suction/injection due to stretching sheet: OHAM solution

Guled, C. N. / Tawade, J. V. / Nandeppanavar, Mahantesh M. / Saraf, A. R.

In this study, the optimal homotopy analysis (OHAM) technique has been examined to solve the laminar magnetohydrodynamic flow (MHD flow) on the upper‐convected Maxwell fluid on an isothermal porous stretch surface. A study on the effects of parameters like the relaxation time, suction/injection velocity, as well as the magnetic number on velocity over a sheet was conducted and these results are compared to the corresponding previously available results. It was observed that the thickness of the boundary layer is lowered by enhancing $s$ , $β$ , and $M$ values. Opposing this, it was observed that large $β$ values increase the $f ″ (0)$ magnituIIde. It is found that OHAM is an efficient method capable of giving a greater degree of accuracy in numerical values of flow parameters even after fewer approximations.

MHD slip flow and heat transfer of UCM fluid with the effect of suction/injection due to stretching sheet: OHAM solution

Guled, C. N. / Tawade, J. V. / Nandeppanavar, Mahantesh M. / Saraf, A. R.

In this study, the optimal homotopy analysis (OHAM) technique has been examined to solve the laminar magnetohydrodynamic flow (MHD flow) on the upper‐convected Maxwell fluid on an isothermal porous stretch surface. A study on the effects of parameters like the relaxation time, suction/injection velocity, as well as the magnetic number on velocity over a sheet was conducted and these results are compared to the corresponding previously available results. It was observed that the thickness of the boundary layer is lowered by enhancing $s$ , $β$ , and $M$ values. Opposing this, it was observed that large $β$ values increase the $f ″ (0)$ magnituIIde. It is found that OHAM is an efficient method capable of giving a greater degree of accuracy in numerical values of flow parameters even after fewer approximations.

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Title:

MHD slip flow and heat transfer of UCM fluid with the effect of suction/injection due to stretching sheet: OHAM solution

Contributors:

Guled, C. N. (author) / Tawade, J. V. (author) / Nandeppanavar, Mahantesh M. (author) / Saraf, A. R. (author)

Published in:

Heat Transfer ; 51 ; 3201-3218

Publication date:

2022-06-01

Size:

18 pages

ISSN:

2688-4542 , 2688-4534

DOI:

https://doi.org/10.1002/htj.22444

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

suction and injection , MHD flow , UCM fluid , HPM , HAM , porous stretching sheet

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