This paper shows a steady simulation of blood flow in the major head and neck arteries as if they had rigid walls, using patient specific geometry and CFD software FLUENT R . The Artery geometry is obtained by CT–scan segmentation with the commercial software ScanIPTM. A cause and effect study with various Reynolds numbers, viscous models and blood fluid models is provided. Mesh independence is achieved through wall y+ and pressure gradient adaption. It was found, that a Newtonian fluid model is not appropriate for all geometry parts, therefore the non–Newtonian properties of blood are required for small vessel diameters and low Reynolds numbers. The k–! turbulence model is suitable for the whole Reynolds numbe
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
The initiation and progression of atherosclerosis, which is the main cause of cardiovascular disease...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
This paper shows a steady simulation of blood flow in the major head and neck arteries as if they h...
Medicine is one of the branches of scientific research in which numerical simulation can give a grea...
Mathematical and physical models have been developed in order to study blood flow through arteries, ...
Segmentation and mesh generation are two important stages in patient-specific com-putational modelli...
grantor: University of TorontoComputational blood flow modelling in patient-specific arter...
Cerebral aneurysm growth is influenced by hemodynamical factors, which are commonly estimated by mea...
A distributed-parameter (one-dimensional) anatomically detailed model for the arterial net...
Objective: Recent advances in computerized image processing made the early diagnosis and elective in...
Abstract. Blood dynamics in cardiovascular system involve length scales in vastly different ranges, ...
The human circulatory system is complex and its modelling and simulation constitute a difficult and ...
Cardiovascular disease mostly in the form of atherosclerosis is responsible for 30% of all world dea...
In the cardiovascular system, morphology and functionality are closely related. Altered flow conditi...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
The initiation and progression of atherosclerosis, which is the main cause of cardiovascular disease...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...
This paper shows a steady simulation of blood flow in the major head and neck arteries as if they h...
Medicine is one of the branches of scientific research in which numerical simulation can give a grea...
Mathematical and physical models have been developed in order to study blood flow through arteries, ...
Segmentation and mesh generation are two important stages in patient-specific com-putational modelli...
grantor: University of TorontoComputational blood flow modelling in patient-specific arter...
Cerebral aneurysm growth is influenced by hemodynamical factors, which are commonly estimated by mea...
A distributed-parameter (one-dimensional) anatomically detailed model for the arterial net...
Objective: Recent advances in computerized image processing made the early diagnosis and elective in...
Abstract. Blood dynamics in cardiovascular system involve length scales in vastly different ranges, ...
The human circulatory system is complex and its modelling and simulation constitute a difficult and ...
Cardiovascular disease mostly in the form of atherosclerosis is responsible for 30% of all world dea...
In the cardiovascular system, morphology and functionality are closely related. Altered flow conditi...
Interest in patient-specific blood-flow circulation modeling has increased substantially in recent y...
The initiation and progression of atherosclerosis, which is the main cause of cardiovascular disease...
This article focuses on the transient behaviour of blood flow in stenotic arteries. Human blood is ...