Numerical simulations of physiological pulsatile flow through mild and severe arterial stenosis are carried out to analyze wall shear stress parameters. The governing equations are solved by finite volume method. The study shows that the distribution patterns of time-averaged wall shear stress (TAWSS), oscillatory shear index (OSI) and relative residence time (RRT) are same forboth mild stenosis and severe stenosis. The magnitude of peak TAWSS and low TAWSS and extent of negative TAWSS of severe stenosis is higher than those of mild stenosis. The OSI value of severe stenosis is higher at distal to throat of stenosis in comparison to mild stenosis. The size of recirculation zone of severe stenosis is lager than that of mild stenosis. The abn...
A numerical investigation is carried out for laminar sinusoidal pulsating flow through a modeled art...
Blood flow through small, obstructed vessels is studied by computing flows in tubes featuring three ...
© 2017 Arindam Bit et al.Purpose. Atherosclerosis is a diseased condition of blood vessel. It causes...
AbstractA numerical study has been carried out to analyze the unsteady flow field of a stenotic arte...
This paper presents a numerical study of pulsatile flow through an axisymmetric stenosed artery. Num...
A variety of wall shear stress (WSS) based hemodynamic descriptors have been defined over the years ...
10 p.Different shapes of pulsatile flows through a model of stenosis are experimentally and numerica...
Recently, due to the development of CFD techniques, many attempts have been made to simulate the ini...
Wall shear stress (WSS) plays an important role in the formation, growth, and rupture of atheroscler...
AbstractA numerical simulation is carried out to demonstrate the significant changes of flow behavio...
A three-dimensional direct numerical simulation model coupled with the immersed boundary method has ...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
Atherosclerosis is a life-threatening disease of the human circulatory system. It can lead to blocka...
A numerical investigation is carried out for laminar sinusoidal pulsating flow through a modeled art...
Blood flow through small, obstructed vessels is studied by computing flows in tubes featuring three ...
© 2017 Arindam Bit et al.Purpose. Atherosclerosis is a diseased condition of blood vessel. It causes...
AbstractA numerical study has been carried out to analyze the unsteady flow field of a stenotic arte...
This paper presents a numerical study of pulsatile flow through an axisymmetric stenosed artery. Num...
A variety of wall shear stress (WSS) based hemodynamic descriptors have been defined over the years ...
10 p.Different shapes of pulsatile flows through a model of stenosis are experimentally and numerica...
Recently, due to the development of CFD techniques, many attempts have been made to simulate the ini...
Wall shear stress (WSS) plays an important role in the formation, growth, and rupture of atheroscler...
AbstractA numerical simulation is carried out to demonstrate the significant changes of flow behavio...
A three-dimensional direct numerical simulation model coupled with the immersed boundary method has ...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
Atherosclerosis is a life-threatening disease of the human circulatory system. It can lead to blocka...
A numerical investigation is carried out for laminar sinusoidal pulsating flow through a modeled art...
Blood flow through small, obstructed vessels is studied by computing flows in tubes featuring three ...
© 2017 Arindam Bit et al.Purpose. Atherosclerosis is a diseased condition of blood vessel. It causes...