10 p.Different shapes of pulsatile flows through a model of stenosis are experimentally and numerically modeled to validate both methods and to determine the wall shear stress temporal evolution downstream from the stenosis. Two-dimensional velocity measurements are performed in a 75% severity stenosis using a pulsed Doppler ultrasonic velocimeter. Finite element package is employed for the transient numerical simulations. Polynomial method, based on the experimental velocity values, is proposed to determine the wall shear stress temporal evolution. There is a good agreement between the numerical and experimental results. The wall shear stress temporal analysis shows oscillating wall shear stress values during the cycle with high wall shear...
A numerical investigation is carried out for laminar sinusoidal pulsating flow through a modeled art...
The problem of blood flow through a stenosis is solved using the incompressible Navier-Stokes equati...
Mathematical and physical models have been developed in order to study blood flow through arteries, ...
This paper presents a numerical study of pulsatile flow through an axisymmetric stenosed artery. Num...
AbstractA numerical study has been carried out to analyze the unsteady flow field of a stenotic arte...
Numerical simulations are performed for two-dimensional steady and pulsatile flow of blood through a...
AbstractA numerical simulation is carried out to demonstrate the significant changes of flow behavio...
Numerical simulations of physiological pulsatile flow through mild and severe arterial stenosis are ...
9 p.In this paper we present a study of the post-stenotic velocity flow field corresponding to oscil...
The pulsatile blood flow through constricted artery generates fluid mechanical forces on internal la...
Purpose: Abnormalities in blood vessels by virtue of complex blood flow dynamics is being supported ...
The effects of percentage stenosis and Reynolds number (Re) on steady flow, and Womersley number (Wo...
The current study presents three-dimensional modeling and analysis of blood flow through artery sten...
This paper presents numerical investigations on wall shear stress (WSS) profiles in three-dimensiona...
Numerical investigations have been carried out for steady flow through an idealised model of an arte...
A numerical investigation is carried out for laminar sinusoidal pulsating flow through a modeled art...
The problem of blood flow through a stenosis is solved using the incompressible Navier-Stokes equati...
Mathematical and physical models have been developed in order to study blood flow through arteries, ...
This paper presents a numerical study of pulsatile flow through an axisymmetric stenosed artery. Num...
AbstractA numerical study has been carried out to analyze the unsteady flow field of a stenotic arte...
Numerical simulations are performed for two-dimensional steady and pulsatile flow of blood through a...
AbstractA numerical simulation is carried out to demonstrate the significant changes of flow behavio...
Numerical simulations of physiological pulsatile flow through mild and severe arterial stenosis are ...
9 p.In this paper we present a study of the post-stenotic velocity flow field corresponding to oscil...
The pulsatile blood flow through constricted artery generates fluid mechanical forces on internal la...
Purpose: Abnormalities in blood vessels by virtue of complex blood flow dynamics is being supported ...
The effects of percentage stenosis and Reynolds number (Re) on steady flow, and Womersley number (Wo...
The current study presents three-dimensional modeling and analysis of blood flow through artery sten...
This paper presents numerical investigations on wall shear stress (WSS) profiles in three-dimensiona...
Numerical investigations have been carried out for steady flow through an idealised model of an arte...
A numerical investigation is carried out for laminar sinusoidal pulsating flow through a modeled art...
The problem of blood flow through a stenosis is solved using the incompressible Navier-Stokes equati...
Mathematical and physical models have been developed in order to study blood flow through arteries, ...