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Effects of hall and ion slip on MHD peristaltic flow of Jeffrey fluid in a non-uniform rectangular duct

by Ellahi, R , Bhatti, M. M , Pop, Ioan

in Biomedical engineering / Computational fluid dynamics / Drug delivery systems / Ducts / Engineering / Flow rate / Flow rates / Flow velocity / Fluid flow / Fluids / Graphs / Incompressible flow / Magnetohydrodynamics / Mathematical models / Mechanical engineering / Newtonian fluids / Non Newtonian fluids / Numerical integration / Parameters / Physical properties / Physiology / Polymers / Pressure gradients / Propagation / Reynolds number / Rheology / Shear stress / Slip / Thinning / Velocity / Viscosity / Wall shear stresses

2016

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Effects of hall and ion slip on MHD peristaltic flow of Jeffrey fluid in a non-uniform rectangular duct

by Ellahi, R , Bhatti, M. M , Pop, Ioan

2016

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Effects of hall and ion slip on MHD peristaltic flow of Jeffrey fluid in a non-uniform rectangular duct

by Ellahi, R , Bhatti, M. M , Pop, Ioan

2016

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Journal Article

Effects of hall and ion slip on MHD peristaltic flow of Jeffrey fluid in a non-uniform rectangular duct

Ellahi, R,

Bhatti, M. M,

Pop, Ioan

2016

Overview

Purpose – The purpose of this paper is to theoretically study the problem of the peristaltic flow of Jeffrey fluid in a non-uniform rectangular duct under the effects of Hall and ion slip. An incompressible and magnetohydrodynamics fluid is also taken into account. The governing equations are modelled under the constraints of low Reynolds number and long wave length. Recent development in biomedical engineering has enabled the use of the periastic flow in modern drug delivery systems with great utility. Design/methodology/approach – Numerical integration is used to analyse the novel features of volumetric flow rate, average volume flow rate, instantaneous flux and the pressure gradient. The impact of physical parameters is depicted with the help of graphs. The trapping phenomenon is presented through stream lines. Findings – The results of Newtonian fluid model can be obtained by taking out the effects of Jeffrey parameter from this model. No-slip case is a special case of the present work. The results obtained for the flow of Jeffrey fluid reveal many interesting behaviours that warrant further study on the non-Newtonian fluid phenomena, especially the shear-thinning phenomena. Shear-thinning reduces the wall shear stress. Originality/value – The results of this paper are new and original.

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Publisher

Emerald Group Publishing Limited

Subject

Biomedical engineering

/ Computational fluid dynamics

/ Drug delivery systems

/ Ducts

/ Engineering

/ Flow rate

/ Flow rates