Darcy-Brinkman Flow of a Micropolar Fluid through an Anisotropic Porous Channel

Verma, Vineet Kumar; Ansari, Abdul Faiz

doi:10.1080/23324309.2024.2413187

Journal of Computational and Theoretical Transport

2024

DOI: 10.1080/23324309.2024.2413187

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Darcy-Brinkman Flow of a Micropolar Fluid through an Anisotropic Porous Channel

Vineet Kumar Verma,

Abdul Faiz Ansari

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2024

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Effect of Magnetic Field and Slip Conditions on Flow in a Rotating Porous Channel With Viscous Dissipation

Verma,

Ansari

2024

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This study examines the steady flow of an electrically conducting fluid through a rotating porous channel bounded by stationary, impermeable horizontal plates at constant temperature. The primary aim is to explore the combined effects of a magnetic field, wall slip conditions, and viscous dissipation. The channel rotates at a constant angular velocity, with slip conditions applied at the walls. A pressure gradient drives the primary flow, while rotation generates the secondary flow. Analytical solutions for velocity profiles and volumetric flow rates are obtained, and the temperature distribution is calculated using MATLAB's “bvp4c” function. The research offers novel insights into the behavior of primary and secondary flow velocities under different Hartmann and Taylor numbers, emphasizing the impact of slip conditions. Additionally, the influence of the Eckert number on temperature is analyzed in conjunction with these parameters. These findings contribute valuable theoretical perspectives for enhancing cooling systems in rotating machinery using conductive fluids in porous channels. This study opens avenues for future research to investigate unsteady flow conditions and the effects of variable magnetic fields and rotational speeds on fluid behavior in rotating porous channels.

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Effect of Magnetic Field and Slip Conditions on Flow in a Rotating Porous Channel With Viscous Dissipation

Verma,

Ansari

2024

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Darcy-Brinkman Flow of a Micropolar Fluid through an Anisotropic Porous Channel

Cited by 1 publication

References 50 publications

Effect of Magnetic Field and Slip Conditions on Flow in a Rotating Porous Channel With Viscous Dissipation

Effect of Magnetic Field and Slip Conditions on Flow in a Rotating Porous Channel With Viscous Dissipation

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