Pulsatile flow through a circular pipe with porous medium under the influence of time varying pressure gradient: Effects of with and without visco-elastic fluid

Chitra, M.; Kavitha, V.

doi:10.26637/mjm0s20/0024

Malaya J. Mat.

2020

DOI: 10.26637/mjm0s20/0024

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Pulsatile flow through a circular pipe with porous medium under the influence of time varying pressure gradient: Effects of with and without visco-elastic fluid

M. Chitra¹,

V. Kavitha²

Abstract: In this paper, the effects of with and without viscous elastic pulsatile flow of an incompressible Newtonian conducting fluid in porous medium through a circular pipe under the influence of time varying pressure gradient are investigated analytically by using Bessel function. The effect of different parameters on fluid velocity, flow rate and shear stress are discussed in case (i): with the effect of visco-elastic and case (ii): without visco-elastic fluid and comparing results through graphically.

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2023

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The Effects of Reduced Gravity and Radiative Heat Transfer on the Magnetohydrodynamic Flow Past a Non-Rotating Stationary Sphere Surrounded by a Porous Medium

et al. 2023

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In the present study, the effects of reduced gravity and solar radiation on the magnetohydrodynamics (MHD) fluid flow and heat transfer past a solid and stationary sphere embedded in a porous medium are investigated. A model describing the considered configuration is put in dimensionless form using appropriate dimensionless variables and then transformed to primitive form for a smooth algorithm on a computing tool. A primitive form of the model is solved by employing the finite difference method. Solutions for variables of interest, such as velocity distribution and temperature field, along with their gradients, are depicted in graphs and tables. The main goal of the paper is to study the physical impact of reduced gravity on heat transfer and fluid flow around a sphere surface inserted in a porous medium in the presence of an applied magnetic field and solar radiation. The effects of the governing parameters, which are the reduced gravity parameter, magnetic field parameter, radiation parameter, porous medium parameter, and the Prandtl number, are discussed and physically interpreted. The displayed solutions indicate that velocity rises with the reduced gravity and solar radiation parameters but decreases with augmenting the Prandtl number, magnetic field parameter, and porous medium parameter. It is deduced from the presented results that the temperature becomes lower by increasing the values of the reduced gravity parameter and the Prandtl number, but, on the other hand, it becomes higher by increasing the values of the magnetic field, the porous medium, and the radiation parameters at all the considered positions of the surface of the sphere. A comparison between the present and already published results is performed to check the validity of the proposed numerical model.

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The Effects of Reduced Gravity and Radiative Heat Transfer on the Magnetohydrodynamic Flow Past a Non-Rotating Stationary Sphere Surrounded by a Porous Medium

et al. 2023

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Pulsatile flow through a circular pipe with porous medium under the influence of time varying pressure gradient: Effects of with and without visco-elastic fluid

Cited by 1 publication

References 3 publications

The Effects of Reduced Gravity and Radiative Heat Transfer on the Magnetohydrodynamic Flow Past a Non-Rotating Stationary Sphere Surrounded by a Porous Medium

The Effects of Reduced Gravity and Radiative Heat Transfer on the Magnetohydrodynamic Flow Past a Non-Rotating Stationary Sphere Surrounded by a Porous Medium

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