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Numerical Investigation of Mixed Convective Williamson Fluid Flow Over an Exponentially Stretching Permeable Curved Surface

by Akbar, Tanvir , Khan, Ilyas , Alharbi, Sayer O. , Rasool, Ghulam , Khan, Waqar A. , Ahmed, Kamran

in Computational fluid dynamics / Convective flow / Differential equations / exponential stretching / Fluid flow / Friction / Heat conductivity / Heat flux / Heat transfer / Investigations / Joule heating / Lie groups / Magnetic permeability / mixed convective flow / Non-Newtonian fluids / Parameters / Partial differential equations / Permeability / porous carved surface / Radiation / Rheology / Stress concentration / Stretching / Suction / Temperature ratio / Thermal conductivity / Thermal radiation / variable thermal conductivity / Velocity / Velocity distribution / Viscosity / Williamson fluid model

2021

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Numerical Investigation of Mixed Convective Williamson Fluid Flow Over an Exponentially Stretching Permeable Curved Surface

by Akbar, Tanvir , Khan, Ilyas , Alharbi, Sayer O. , Rasool, Ghulam , Khan, Waqar A. , Ahmed, Kamran

2021

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Numerical Investigation of Mixed Convective Williamson Fluid Flow Over an Exponentially Stretching Permeable Curved Surface

by Akbar, Tanvir , Khan, Ilyas , Alharbi, Sayer O. , Rasool, Ghulam , Khan, Waqar A. , Ahmed, Kamran

2021

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Journal Article

Numerical Investigation of Mixed Convective Williamson Fluid Flow Over an Exponentially Stretching Permeable Curved Surface

Akbar, Tanvir,

Khan, Ilyas,

Alharbi, Sayer O.,

Rasool, Ghulam,

Khan, Waqar A.,

Ahmed, Kamran

2021

Overview

The present investigation aims to examine the heat flux mechanism in the hagnetohydrodynamic (MHD) mixed convective flow of Williamson-type fluid across an exponential stretching porous curved surface. The significant role of thermal conductivity (variable), non-linear thermal radiation, unequal source-sink, and Joules heating is considered. The governing problems are obtained using the Navier–Stokes theory, and the appropriate similarity transformation is applied to write the partial differential equations in the form of single-variable differential equations. The solutions are obtained by using a MATLAB-based built-in bvp4c package. The vital aspect of this analysis is to observe the effects of the curvature parameter, magnetic number, suction/injection parameter, permeability parameter, Prandtl factor, Eckert factor, non-linear radiation parameter, buoyancy parameter, temperature ratio parameter, Williamson fluid parameter, and thermal conductivity (variable) parameter on the velocity field, thermal distribution, and pressure profile which are discussed in detail using a graphical approach. The correlation with the literature reveals a satisfactory improvement in the existing results on permeability factors in Williamson fluids.

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Publisher

MDPI AG

Subject

Computational fluid dynamics

/ Convective flow

/ Differential equations

/ exponential stretching

/ Fluid flow

/ Friction

/ Heat conductivity