Analysis of MHD Williamson micropolar fluid flow in non-Darcian porous media with variable thermal conductivity

Pankaj Mishra; Dhirendra Kumar; Jogendra Kumar; Abdel Haleem Abdel-Aty; Choonkil Park; Ibrahim S. Yahia

doi:10.1016/j.csite.2022.102195

Analysis of MHD Williamson micropolar fluid flow in non-Darcian porous media with variable thermal conductivity

Pankaj Mishra
, Dhirendra Kumar
, Jogendra Kumar
, Abdel Haleem Abdel-Aty
, Choonkil Park
, Ibrahim S. Yahia

Central University of South Bihar
DIT University
University of Bisha
Hanyang University
King Khalid University
Ain Shams University

Research output: Contribution to journal › Article › peer-review

32 Scopus citations

Abstract

The purpose of this research is to investigate the MHD flow of Williamson fluid through a non-Darcy porous medium with micro-rotation. The governing equations are first converted into a coupled system of ODEs with initial and boundary conditions. The shooting procedure with the Runge-Kutta method is used to solve the ODEs, and determine the impact of various parameters for heat and momentum transfer of boundary layer flow. Finally, all findings are graphed and compared with earlier results to ensure that the current outputs are perfectly valid. Furthermore, it can be seen from the characteristic graph that the system parameters, magnetic field M and non-Darcy F tend to reduce the fluid velocity. Also, a comparison between the two fluid models, Williamson fluid and micropolar fluid have been obtained via the effects of various parameters on skin friction and Nusselt number.

Original language	English
Article number	102195
Journal	Case Studies in Thermal Engineering
Volume	36
DOIs	https://doi.org/10.1016/j.csite.2022.102195
State	Published - Aug 2022
Externally published	Yes

Keywords

MHD flow
Micropolar fluid
Non-Darcy porous medium
Nusselt number
Skin friction
Thermal conductivity
Williamson fluid

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10.1016/j.csite.2022.102195

Cite this

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title = "Analysis of MHD Williamson micropolar fluid flow in non-Darcian porous media with variable thermal conductivity",

abstract = "The purpose of this research is to investigate the MHD flow of Williamson fluid through a non-Darcy porous medium with micro-rotation. The governing equations are first converted into a coupled system of ODEs with initial and boundary conditions. The shooting procedure with the Runge-Kutta method is used to solve the ODEs, and determine the impact of various parameters for heat and momentum transfer of boundary layer flow. Finally, all findings are graphed and compared with earlier results to ensure that the current outputs are perfectly valid. Furthermore, it can be seen from the characteristic graph that the system parameters, magnetic field M and non-Darcy F tend to reduce the fluid velocity. Also, a comparison between the two fluid models, Williamson fluid and micropolar fluid have been obtained via the effects of various parameters on skin friction and Nusselt number.",

keywords = "MHD flow, Micropolar fluid, Non-Darcy porous medium, Nusselt number, Skin friction, Thermal conductivity, Williamson fluid",

author = "Pankaj Mishra and Dhirendra Kumar and Jogendra Kumar and Abdel-Aty, \{Abdel Haleem\} and Choonkil Park and Yahia, \{Ibrahim S.\}",

note = "Publisher Copyright: {\textcopyright} 2022 The Authors.",

year = "2022",

month = aug,

doi = "10.1016/j.csite.2022.102195",

language = "English",

volume = "36",

journal = "Case Studies in Thermal Engineering",

issn = "2214-157X",

publisher = "Elsevier Ltd",

}

TY - JOUR

T1 - Analysis of MHD Williamson micropolar fluid flow in non-Darcian porous media with variable thermal conductivity

AU - Mishra, Pankaj

AU - Kumar, Dhirendra

AU - Kumar, Jogendra

AU - Abdel-Aty, Abdel Haleem

AU - Park, Choonkil

AU - Yahia, Ibrahim S.

PY - 2022/8

Y1 - 2022/8

N2 - The purpose of this research is to investigate the MHD flow of Williamson fluid through a non-Darcy porous medium with micro-rotation. The governing equations are first converted into a coupled system of ODEs with initial and boundary conditions. The shooting procedure with the Runge-Kutta method is used to solve the ODEs, and determine the impact of various parameters for heat and momentum transfer of boundary layer flow. Finally, all findings are graphed and compared with earlier results to ensure that the current outputs are perfectly valid. Furthermore, it can be seen from the characteristic graph that the system parameters, magnetic field M and non-Darcy F tend to reduce the fluid velocity. Also, a comparison between the two fluid models, Williamson fluid and micropolar fluid have been obtained via the effects of various parameters on skin friction and Nusselt number.

AB - The purpose of this research is to investigate the MHD flow of Williamson fluid through a non-Darcy porous medium with micro-rotation. The governing equations are first converted into a coupled system of ODEs with initial and boundary conditions. The shooting procedure with the Runge-Kutta method is used to solve the ODEs, and determine the impact of various parameters for heat and momentum transfer of boundary layer flow. Finally, all findings are graphed and compared with earlier results to ensure that the current outputs are perfectly valid. Furthermore, it can be seen from the characteristic graph that the system parameters, magnetic field M and non-Darcy F tend to reduce the fluid velocity. Also, a comparison between the two fluid models, Williamson fluid and micropolar fluid have been obtained via the effects of various parameters on skin friction and Nusselt number.

KW - MHD flow

KW - Micropolar fluid

KW - Non-Darcy porous medium

KW - Nusselt number

KW - Skin friction

KW - Thermal conductivity

KW - Williamson fluid

UR - https://www.scopus.com/pages/publications/85132761214

U2 - 10.1016/j.csite.2022.102195

DO - 10.1016/j.csite.2022.102195

M3 - Article

AN - SCOPUS:85132761214

SN - 2214-157X

VL - 36

JO - Case Studies in Thermal Engineering

JF - Case Studies in Thermal Engineering

M1 - 102195

ER -

Analysis of MHD Williamson micropolar fluid flow in non-Darcian porous media with variable thermal conductivity

Abstract

Keywords

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