Numerical solutions of locally magnetized blood flow in the vessel filled with the porous medium

•In this paper two-dimensional biofluid is simulated in the rectangular channel, which is fully filled with the homogeneous porous media.•The blood flow is governed by the principles of magnetohydrodynamics and ferrohydrodynamics.•The main purpose of this study is to understand the impact of porous...

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Published inInternational journal of mechanical sciences Vol. 157-158; pp. 668 - 676
Main Authors Siddiqa, Sadia, Naqvi, S.B., Hossain, M.A.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.07.2019
Subjects
Blood
Ferrohydrodynamics
Magnetized biofluid
Magnetohydrodynamics
Porous medium
Magnetohydrodynamics
Blood
Magnetized biofluid
Porous medium
Ferrohydrodynamics
Online AccessGet full text
ISSN0020-7403
1879-2162
DOI10.1016/j.ijmecsci.2019.04.037

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Abstract •In this paper two-dimensional biofluid is simulated in the rectangular channel, which is fully filled with the homogeneous porous media.•The blood flow is governed by the principles of magnetohydrodynamics and ferrohydrodynamics.•The main purpose of this study is to understand the impact of porous medium on the region where biofluid is subject to the application of localized magnetic field.•It is observed that the blood velocity can be control by adjusting the isotropic permeability which is the desirable requirement of surgical treatments for hyperthermia and cancer. In this paper two-dimensional biofluid is simulated in the rectangular vessel, which is fully filled with the homogeneous porous media. Unlike the typical Navier–Stokes equations, the blood flow is governed by the principles of magnetohydrodynamics and ferrohydrodynamics. The main purpose of this study is to understand the impact of porous medium on the region where biofluid is subject to the application of localized magnetic field. The numerical results are estimated by keeping in view the applications in the field of magneto-haemorheology. Therefore, values of all the physical parameters, used for the interpretation of results, are in accordance with the pathological state. The solutions are presented in the form of vorticity function, streamlines, temperature function contours and velocity components. It is observed that the blood velocity can be controled by adjusting the isotropic permeability which is the desirable requirement of surgical treatments for hyperthermia and cancer.
AbstractList •In this paper two-dimensional biofluid is simulated in the rectangular channel, which is fully filled with the homogeneous porous media.•The blood flow is governed by the principles of magnetohydrodynamics and ferrohydrodynamics.•The main purpose of this study is to understand the impact of porous medium on the region where biofluid is subject to the application of localized magnetic field.•It is observed that the blood velocity can be control by adjusting the isotropic permeability which is the desirable requirement of surgical treatments for hyperthermia and cancer. In this paper two-dimensional biofluid is simulated in the rectangular vessel, which is fully filled with the homogeneous porous media. Unlike the typical Navier–Stokes equations, the blood flow is governed by the principles of magnetohydrodynamics and ferrohydrodynamics. The main purpose of this study is to understand the impact of porous medium on the region where biofluid is subject to the application of localized magnetic field. The numerical results are estimated by keeping in view the applications in the field of magneto-haemorheology. Therefore, values of all the physical parameters, used for the interpretation of results, are in accordance with the pathological state. The solutions are presented in the form of vorticity function, streamlines, temperature function contours and velocity components. It is observed that the blood velocity can be controled by adjusting the isotropic permeability which is the desirable requirement of surgical treatments for hyperthermia and cancer.
Author Siddiqa, Sadia
Hossain, M.A.
Naqvi, S.B.
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Keywords Magnetohydrodynamics
Blood
Magnetized biofluid
Porous medium
Ferrohydrodynamics
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Snippet •In this paper two-dimensional biofluid is simulated in the rectangular channel, which is fully filled with the homogeneous porous media.•The blood flow is...
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StartPage 668
SubjectTerms Blood
Ferrohydrodynamics
Magnetized biofluid
Magnetohydrodynamics
Porous medium
Title Numerical solutions of locally magnetized blood flow in the vessel filled with the porous medium
URI https://dx.doi.org/10.1016/j.ijmecsci.2019.04.037
Volume 157-158
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