Analysis on Rheology of Unsteady Casson Fluid Flow through an Atherosclerotic Lesion

Abstract: In this study, the blood flow mechanism in an inclined artery with the unwanted growth inside the arterial wall has been investigated by modelling blood as a non-Newtonian Casson fluid. A significant quantitative investigation on various flow physical parameters, including axial velocity, volumetric flow rate, plug core radius, plug core velocity, wall shear stress, and effective viscosity, has been analyzed through numerical calculations under the assumption that blood flow is unsteady. According to this stud… Show more

“…Bunonyo et al, [4] discovered that both velocity and concentration decrease with increasing height of stenosis in their research of blood flow through a microchannel with magnetic field presenting. Awasthi and Siddiqui [5] studied the mechanics of unsteady blood flow through an inclined artery with the presence of growth at the arterial wall using the Casson model. They highlighted that the plug core velocity exhibits a decrease when both the yield stress and stenosis height are heightened.…”

Unsteady Flow of Bingham Model: Investigating the Impact of Arterial Inclination on Solute Transport in Stenosed Artery

“…Bunonyo et al, [4] discovered that both velocity and concentration decrease with increasing height of stenosis in their research of blood flow through a microchannel with magnetic field presenting. Awasthi and Siddiqui [5] studied the mechanics of unsteady blood flow through an inclined artery with the presence of growth at the arterial wall using the Casson model. They highlighted that the plug core velocity exhibits a decrease when both the yield stress and stenosis height are heightened.…”

Unsteady Flow of Bingham Model: Investigating the Impact of Arterial Inclination on Solute Transport in Stenosed Artery

Solute dispersion in hemodynamic within a stenotic artery experiencing arterial inclination and body acceleration