FDM Analysis for Blood Flow through Stenosed Tapered Arteries

Sankar, D. S.; Goh, Joan; Ismail, AhmadIzani Mohamed

doi:10.1155/2010/917067

Cited by 10 publications

(1 citation statement)

References 17 publications

(7 reference statements)

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“…Two types of permeability considered in this study are (i) constant permeability with ( ) = 0 , where 0 is a constant (permeability factor) and (ii) variable (in the radial direction) permeability with ( ) = 0 [(1 − )/ ]. For Herschel-Bulkley fluid, the typical value of power law index is generally taken as 0.95 [22]. It is noted that in the case of constant permeability with lower values of the permeability factor ( 0 = 0.05, 0.1, 0.25), the shear stress increases slowly in the radial direction when increases from 0 to 0.6 and then it increases rapidly when increases further from 0.6 to 1.…”

Section: Resultsmentioning

confidence: 99%

Mathematical Analysis of Blood Flow in Porous Tubes: A Comparative Study

Sankar

Nagar

2013

Advances in Mechanical Engineering

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The steady flow of Herschel-Bulkley and Casson fluids for blood flow in tubes filled with homogeneous porous medium with (i) constant and (ii) variable permeability is analyzed. The expression for the shear stress is obtained first by general iteration method and then using numerical integration; the solutions for velocity and flow rate are obtained. It is noticed that the shear stress and plug core radius are considerably higher in the case of variable permeability than those of the constant permeability case. The velocity and flow rate of both the fluids increase considerably with the increase in the permeability factor and they decrease with the increase in the yield stress of the fluids. The velocity and flow rate of Herschel-Bulkley fluid are considerably higher than those of Casson fluid. Aforesaid flow quantities are significantly higher for flow in tubes with variable permeability than for flow in tubes with constant permeability.

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Section: Resultsmentioning

confidence: 99%

Mathematical Analysis of Blood Flow in Porous Tubes: A Comparative Study

Sankar

Nagar

2013

Advances in Mechanical Engineering

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Blood flow analysis in tapered stenosed arteries with the influence of heat and mass transfer

Liu

2020

J. Appl. Math. Comput.

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Numerical Investigation of Pulsatile Blood Flow in Stenosed Artery

Haghighi

Kabdool

Asl

et al. 2015

Int. J. Appl. Comput. Math

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In the present study, a two-layered model of pulsatile flow of blood through a stenosed elastic artery is numerically examined. The two-fluid model consists of a core layer of a suspension of erythrocytes and peripheral plasma layer. It is assumed that the core and peripheral plasma layer behave as micropolar and Newtonian fluids respectively. The resulting system of nonlinear partial differential equations is numerically solved using the finite difference scheme by exploiting the suitably prescribed conditions. Effects of the tapering angle, wall deformation and severity of the stenosis on flow characteristics are discussed. The present results are compared with literature and found to be in good agreement.

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FDM Analysis for Blood Flow through Stenosed Tapered Arteries

Cited by 10 publications

References 17 publications

Mathematical Analysis of Blood Flow in Porous Tubes: A Comparative Study

Mathematical Analysis of Blood Flow in Porous Tubes: A Comparative Study

Blood flow analysis in tapered stenosed arteries with the influence of heat and mass transfer

Numerical Investigation of Pulsatile Blood Flow in Stenosed Artery

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