A theoretical study on partial slip impact in radiative-hydromagnetic liquid configured by extending surface

M. Zubair; M. Waqas; M. Nasir; Omar T. Bafakeeh; Hawzhen Fateh M. Ameen; Ahmed M. Galal

doi:10.1142/S0217979223500741

A theoretical study on partial slip impact in radiative-hydromagnetic liquid configured by extending surface

M. Zubair, M. Waqas, M. Nasir, Omar T. Bafakeeh, Hawzhen Fateh M. Ameen, Ahmed M. Galal

Mechanical Engineering

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

5 Scopus citations

Abstract

This research elaborates Darcy-Forchheimer magnetized flow based on non-Newtonian liquid induced by elongating surface. Rheological expressions of Casson liquid are utilized for mathematical analysis. Thermal stratification along with velocity and thermal slip aspects is considered. Heat transfer describes radiation and heat source/sink. The complex mathematical expressions featuring partial differential systems are rendered to ordinary differential systems by implementing boundary-layer approach. Numerical results are achieved through bvp4c scheme. Description of nondimensional factors is exhibited via pictorial and tabular depictions. The velocity and thermal field diminish when subjected to larger velocity and thermal slip factors.

Original language	English
Article number	2350074
Journal	International Journal of Modern Physics B
Volume	37
Issue number	8
DOIs	https://doi.org/10.1142/S0217979223500741
State	Published - 30 Mar 2023

Keywords

Casson liquid
Darcy-Forchheimer magnetized flow
Thermal radiation
thermal stratification
velocity and thermal slip

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10.1142/S0217979223500741

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title = "A theoretical study on partial slip impact in radiative-hydromagnetic liquid configured by extending surface",

abstract = "This research elaborates Darcy-Forchheimer magnetized flow based on non-Newtonian liquid induced by elongating surface. Rheological expressions of Casson liquid are utilized for mathematical analysis. Thermal stratification along with velocity and thermal slip aspects is considered. Heat transfer describes radiation and heat source/sink. The complex mathematical expressions featuring partial differential systems are rendered to ordinary differential systems by implementing boundary-layer approach. Numerical results are achieved through bvp4c scheme. Description of nondimensional factors is exhibited via pictorial and tabular depictions. The velocity and thermal field diminish when subjected to larger velocity and thermal slip factors.",

keywords = "Casson liquid, Darcy-Forchheimer magnetized flow, Thermal radiation, thermal stratification, velocity and thermal slip",

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AU - Zubair, M.

AU - Waqas, M.

AU - Nasir, M.

AU - Bafakeeh, Omar T.

AU - Ameen, Hawzhen Fateh M.

AU - Galal, Ahmed M.

PY - 2023/3/30

Y1 - 2023/3/30

N2 - This research elaborates Darcy-Forchheimer magnetized flow based on non-Newtonian liquid induced by elongating surface. Rheological expressions of Casson liquid are utilized for mathematical analysis. Thermal stratification along with velocity and thermal slip aspects is considered. Heat transfer describes radiation and heat source/sink. The complex mathematical expressions featuring partial differential systems are rendered to ordinary differential systems by implementing boundary-layer approach. Numerical results are achieved through bvp4c scheme. Description of nondimensional factors is exhibited via pictorial and tabular depictions. The velocity and thermal field diminish when subjected to larger velocity and thermal slip factors.

AB - This research elaborates Darcy-Forchheimer magnetized flow based on non-Newtonian liquid induced by elongating surface. Rheological expressions of Casson liquid are utilized for mathematical analysis. Thermal stratification along with velocity and thermal slip aspects is considered. Heat transfer describes radiation and heat source/sink. The complex mathematical expressions featuring partial differential systems are rendered to ordinary differential systems by implementing boundary-layer approach. Numerical results are achieved through bvp4c scheme. Description of nondimensional factors is exhibited via pictorial and tabular depictions. The velocity and thermal field diminish when subjected to larger velocity and thermal slip factors.

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KW - Darcy-Forchheimer magnetized flow

KW - Thermal radiation

KW - thermal stratification

KW - velocity and thermal slip

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A theoretical study on partial slip impact in radiative-hydromagnetic liquid configured by extending surface

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