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Hydromagnetic boundary layer flow with heat transfer past a rotating disc embedded in a porous medium

Sharma, Kushal / Vijay, Neha / Kumar, Sanjay / Makinde, Oluwole Daniel

In this study, the effect of Coriolis force along with the Darcy parameter has been analyzed on time‐dependent forced convective boundary layer flow of conducting fluids over a rotating disc embedded in a porous medium. The modeled system is solved by power series approximations in the Mathematica environment shooted values. The significant impact of the rheological properties, such as Darcy parameter $β$ and Prandtl number $\Pr$ , of water, hydrocarbon, and kerosene‐based conducting fluids for the deviation of parameter $ξ$ (Karman) has been noted and then analyzed qualitatively and quantitatively with graphs and tables.

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Hydromagnetic boundary layer flow with heat transfer past a rotating disc embedded in a porous medium

Sharma, Kushal / Vijay, Neha / Kumar, Sanjay / Makinde, Oluwole Daniel

In this study, the effect of Coriolis force along with the Darcy parameter has been analyzed on time‐dependent forced convective boundary layer flow of conducting fluids over a rotating disc embedded in a porous medium. The modeled system is solved by power series approximations in the Mathematica environment shooted values. The significant impact of the rheological properties, such as Darcy parameter $β$ and Prandtl number $\Pr$ , of water, hydrocarbon, and kerosene‐based conducting fluids for the deviation of parameter $ξ$ (Karman) has been noted and then analyzed qualitatively and quantitatively with graphs and tables.

Hydromagnetic boundary layer flow with heat transfer past a rotating disc embedded in a porous medium

Sharma, Kushal / Vijay, Neha / Kumar, Sanjay / Makinde, Oluwole Daniel

In this study, the effect of Coriolis force along with the Darcy parameter has been analyzed on time‐dependent forced convective boundary layer flow of conducting fluids over a rotating disc embedded in a porous medium. The modeled system is solved by power series approximations in the Mathematica environment shooted values. The significant impact of the rheological properties, such as Darcy parameter $β$ and Prandtl number $\Pr$ , of water, hydrocarbon, and kerosene‐based conducting fluids for the deviation of parameter $ξ$ (Karman) has been noted and then analyzed qualitatively and quantitatively with graphs and tables.

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Title:

Hydromagnetic boundary layer flow with heat transfer past a rotating disc embedded in a porous medium

Contributors:

Sharma, Kushal (author) / Vijay, Neha (author) / Kumar, Sanjay (author) / Makinde, Oluwole Daniel (author)

Published in:

Heat Transfer ; 50 ; 4342-4353

Publication date:

2021-07-01

Size:

12 pages

ISSN:

2688-4542 , 2688-4534

DOI:

https://doi.org/10.1002/htj.22078

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

boundary layer , rotating disc , magnetic field , conducting fluid , axisymmetric

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