Add to ORKGPulsatile flow of blood through a uniform artery in the presence of a mild stenosis has been investigated in this paper. Blood has been represented by a Newtonian fluid. This model has been used to study the influence of body acceleration and a velocity slip at wall, in blood flow through stenosed arteries. By employing a perturbation analysis, analytic expressions for the velocity profile, flow rate, wall shear stress and effective viscosity, are derived. The variations of flow variables with different parameters are shown diagrammatically and discussed. It is noticed that velocity and flow rate increase but effective viscosity decreases, due to a wall slip. Flow rate and speed enhance further due to the influence of body acceleration. Bio...
AbstractThe paper is devoted to an analytical study of flow through blood vessels subjected to a per...
The numerical simulation of blood flow in arteries using non-Newtonian viscosity model, presents two...
Blood is indeed a suspension of the different type of cells along with shear thinning, yield stress ...
Pulsatile flow of blood through a uniform artery in the presence of a mild stenosis has been investi...
In the present paper a two fluid model for pulsatile blood flow through stenosed artery has been dev...
The laminar two-dimensional pulsatile flow of blood under the influence of externally imposed period...
Pulsatile flow of blood through an artery in presence of a mild stenosis has been investigated in th...
The flow of blood through stenosed catheterized artery with the effect of external body acceleration...
In this analysis, we present a theoretical study to examine the combined effect of both slip velocit...
The effect of body acceleration on the pulsatile flow of blood through the elliptical artery having ...
In this paper, one-dimensional Herschel-Bulkley fluid flow through-a stenosed artery, has been studi...
Pulsatile flow of a two-fluid model for blood flow through stenosed narrow arteries is studied throu...
The current study presents three-dimensional modeling and analysis of blood flow through artery sten...
Slip effects on unsteady non-Newtonian blood hydro-magnetic flow through an inclined catheterized ov...
In this precise mathematical calculation we have got modeling of abnormal blood flow. This fluid mod...
AbstractThe paper is devoted to an analytical study of flow through blood vessels subjected to a per...
The numerical simulation of blood flow in arteries using non-Newtonian viscosity model, presents two...
Blood is indeed a suspension of the different type of cells along with shear thinning, yield stress ...
Pulsatile flow of blood through a uniform artery in the presence of a mild stenosis has been investi...
In the present paper a two fluid model for pulsatile blood flow through stenosed artery has been dev...
The laminar two-dimensional pulsatile flow of blood under the influence of externally imposed period...
Pulsatile flow of blood through an artery in presence of a mild stenosis has been investigated in th...
The flow of blood through stenosed catheterized artery with the effect of external body acceleration...
In this analysis, we present a theoretical study to examine the combined effect of both slip velocit...
The effect of body acceleration on the pulsatile flow of blood through the elliptical artery having ...
In this paper, one-dimensional Herschel-Bulkley fluid flow through-a stenosed artery, has been studi...
Pulsatile flow of a two-fluid model for blood flow through stenosed narrow arteries is studied throu...
The current study presents three-dimensional modeling and analysis of blood flow through artery sten...
Slip effects on unsteady non-Newtonian blood hydro-magnetic flow through an inclined catheterized ov...
In this precise mathematical calculation we have got modeling of abnormal blood flow. This fluid mod...
AbstractThe paper is devoted to an analytical study of flow through blood vessels subjected to a per...
The numerical simulation of blood flow in arteries using non-Newtonian viscosity model, presents two...
Blood is indeed a suspension of the different type of cells along with shear thinning, yield stress ...