The Effect of Slip Velocity on Unsteady Peristalsis MHD Blood Flow through a Constricted Artery Experiencing Body Acceleration

The Effect of Slip Velocity on Unsteady Peristalsis MHD Blood Flow through a Constricted Artery Experiencing Body Acceleration

In this analysis, we present a theoretical study to examine the combined effect of both slip velocity and periodic body acceleration on an unsteady generalized non-Newtonian blood flow through a stenosed artery with permeable wall. A constant transverse magnetic field is applied on the peristaltic f...

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Bibliographic Details
Main Authors: Nandal J., Kumari S., Rathee R.
Format: Article
Language:English
Published: Sciendo 2019-09-01
Series:International Journal of Applied Mechanics and Engineering
Subjects:
elastico-viscous
slip velocity
selective permeability
peristalsis
stenosed artery
76zxx
76wxx
Online Access:https://doi.org/10.2478/ijame-2019-0040
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spelling doaj-b49e0d8ae95d4856b3e0b54147d4aa272021-09-05T21:02:02ZengSciendoInternational Journal of Applied Mechanics and Engineering1734-44922353-90032019-09-0124364565910.2478/ijame-2019-0040ijame-2019-0040The Effect of Slip Velocity on Unsteady Peristalsis MHD Blood Flow through a Constricted Artery Experiencing Body AccelerationNandal J.0Kumari S.1Rathee R.2Department of Mathematics, M.D. University, Rohtak-124001, Haryana, IndiaDepartment of Mathematics, M.D. University, Rohtak-124001, Haryana, IndiaA.I.J.H.M. College, Rohtak -124001, Haryana, IndiaIn this analysis, we present a theoretical study to examine the combined effect of both slip velocity and periodic body acceleration on an unsteady generalized non-Newtonian blood flow through a stenosed artery with permeable wall. A constant transverse magnetic field is applied on the peristaltic flow of blood, treating it as an elastico-viscous, electrically conducting and incompressible fluid. Appropriate transformation methods are adopted to solve the unsteady non-Newtonian axially symmetric momentum equation in the cylindrical polar coordinate system with suitably prescribed conditions. To validate the applicability of the proposed analysis, analytical expressions for the axial velocity, fluid acceleration, wall shear stress and volumetric flow rate are computed and for having an adequate insight to blood flow behavior through a stenosed artery, graphs have been plotted with varying values of flow variables, to analyse the influence of the axial velocity, wall shear stress and volumetric flow rate of streaming blood.https://doi.org/10.2478/ijame-2019-0040elastico-viscousslip velocityselective permeabilityperistalsisstenosed artery76zxx76wxx
collection DOAJ
language English
format Article
sources DOAJ
author Nandal J.
Kumari S.
Rathee R.
spellingShingle Nandal J.
Kumari S.
Rathee R.
The Effect of Slip Velocity on Unsteady Peristalsis MHD Blood Flow through a Constricted Artery Experiencing Body Acceleration
International Journal of Applied Mechanics and Engineering
elastico-viscous
slip velocity
selective permeability
peristalsis
stenosed artery
76zxx
76wxx
author_facet Nandal J.
Kumari S.
Rathee R.
author_sort Nandal J.
title The Effect of Slip Velocity on Unsteady Peristalsis MHD Blood Flow through a Constricted Artery Experiencing Body Acceleration
title_short The Effect of Slip Velocity on Unsteady Peristalsis MHD Blood Flow through a Constricted Artery Experiencing Body Acceleration
title_full The Effect of Slip Velocity on Unsteady Peristalsis MHD Blood Flow through a Constricted Artery Experiencing Body Acceleration
title_fullStr The Effect of Slip Velocity on Unsteady Peristalsis MHD Blood Flow through a Constricted Artery Experiencing Body Acceleration
title_full_unstemmed The Effect of Slip Velocity on Unsteady Peristalsis MHD Blood Flow through a Constricted Artery Experiencing Body Acceleration
title_sort effect of slip velocity on unsteady peristalsis mhd blood flow through a constricted artery experiencing body acceleration
publisher Sciendo
series International Journal of Applied Mechanics and Engineering
issn 1734-4492
2353-9003
publishDate 2019-09-01
description In this analysis, we present a theoretical study to examine the combined effect of both slip velocity and periodic body acceleration on an unsteady generalized non-Newtonian blood flow through a stenosed artery with permeable wall. A constant transverse magnetic field is applied on the peristaltic flow of blood, treating it as an elastico-viscous, electrically conducting and incompressible fluid. Appropriate transformation methods are adopted to solve the unsteady non-Newtonian axially symmetric momentum equation in the cylindrical polar coordinate system with suitably prescribed conditions. To validate the applicability of the proposed analysis, analytical expressions for the axial velocity, fluid acceleration, wall shear stress and volumetric flow rate are computed and for having an adequate insight to blood flow behavior through a stenosed artery, graphs have been plotted with varying values of flow variables, to analyse the influence of the axial velocity, wall shear stress and volumetric flow rate of streaming blood.
topic elastico-viscous
slip velocity
selective permeability
peristalsis
stenosed artery
76zxx
76wxx
url https://doi.org/10.2478/ijame-2019-0040
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