Pulsatile flow in a 3D model of arterial double stenoses is investigated using a large eddy simulation (LES) technique. The computational domain that has been chosen is a simple channel with a biological-type stenosis formed eccentrically on the top wall. The pulsation was generated at the inlet using the first four harmonics of the Fourier series of the pressure pulse. The flow Reynolds numbers, which are typically suitable for a large human artery, are chosen in the present work. In LES, a top-hat spatial grid-filter is applied to the Navier–Stokes equations of motion to separate the large-scale flows from the sub-grid scale (SGS). The large-scale flows are then resolved fully while the unresolved SGS motions are modelled using a localize...
Blood-flow downstream of stenotic and healthy aortic valves exhibits intermittent random fluctuation...
The genesis of atherosclerosis has previously been shown to be affected by the frictional load from ...
Large Eddy Simulation (LES) is applied to study physiological pulsatile spiral and non-spiral blood ...
Pulsatile flow in a 3D model of arterial double stenoses is investigated using a large eddy simulati...
Physiologicalpulsatileflow in a 3D model of arterialstenosis is investigated by using largeeddysimul...
Large-Eddy simulation (LES) is performed to study pulsatile blood flow through a 3D model of arteria...
Physiological pulsatile flow in a 3D model of arterial stenosisis investigated by applying Large Edd...
Transition of additive and non-additive pulsatile flows through a simple 3D model of arterial stenos...
A large eddy simulation is conducted of a 50% stenosed artery. The inlet boundary condition is a phy...
In the current work, a three-dimensional geometry of a 75% stenosed blood vessel is analyzed. Large ...
Large Eddy Simulation (LES) is performed to study the physiological pulsatile transition to turbulen...
The Large Eddy Simulation (LES) technique is used to simulate the different types of Newtonian and n...
In this paper, we consider Large Eddy Simulations (LES) for human stenotic carotids in presence of a...
Results of large eddy simulation of three-dimensional flow in a model of the blood vessel with a one...
The present study considers a three-dimensional pulsatile flow in mild (45% area reduction) and mode...
Blood-flow downstream of stenotic and healthy aortic valves exhibits intermittent random fluctuation...
The genesis of atherosclerosis has previously been shown to be affected by the frictional load from ...
Large Eddy Simulation (LES) is applied to study physiological pulsatile spiral and non-spiral blood ...
Pulsatile flow in a 3D model of arterial double stenoses is investigated using a large eddy simulati...
Physiologicalpulsatileflow in a 3D model of arterialstenosis is investigated by using largeeddysimul...
Large-Eddy simulation (LES) is performed to study pulsatile blood flow through a 3D model of arteria...
Physiological pulsatile flow in a 3D model of arterial stenosisis investigated by applying Large Edd...
Transition of additive and non-additive pulsatile flows through a simple 3D model of arterial stenos...
A large eddy simulation is conducted of a 50% stenosed artery. The inlet boundary condition is a phy...
In the current work, a three-dimensional geometry of a 75% stenosed blood vessel is analyzed. Large ...
Large Eddy Simulation (LES) is performed to study the physiological pulsatile transition to turbulen...
The Large Eddy Simulation (LES) technique is used to simulate the different types of Newtonian and n...
In this paper, we consider Large Eddy Simulations (LES) for human stenotic carotids in presence of a...
Results of large eddy simulation of three-dimensional flow in a model of the blood vessel with a one...
The present study considers a three-dimensional pulsatile flow in mild (45% area reduction) and mode...
Blood-flow downstream of stenotic and healthy aortic valves exhibits intermittent random fluctuation...
The genesis of atherosclerosis has previously been shown to be affected by the frictional load from ...
Large Eddy Simulation (LES) is applied to study physiological pulsatile spiral and non-spiral blood ...