Add to ORKGA few detailed studies have been performed in complex in vitro microvascular networks composed by bifurcations and confluences. The main purpose of the present work is to numerically simulate the flow of two distinct fluids through bifurcation and confluence geometries, i. e red blood cells (RBCs)suspended in Dextran40 with about 14% of heamatocrit and pure water. The simulations of pure water and RBCs flows were performed resorting to the commercial finite volume software package FLUENT. A well known hemodynamic phenomenon, known as Fahraeus-Lindqvist effect, observed in both in vivo and in vitro studies, results in the formation of a marginal cell-free layer (CFL) at regions adjacent to the wall. Recently, studies have shown that the fo...
In the present work, in vitro blood flowing through a bifurcation microchannel was studied. The aim ...
Red blood cells (RBCs) in microchannels has tendency to undergo axial migration due tothe parabolic ...
The red blood cell (RBC) aggregation phenomenon is majorly responsible for the non-Newtonian nature ...
A few detailed studies have been performed in complex in vitro microvascular networks composed by bi...
Blood is an opaque, heterogeneous, non-Newtonian fluid composed by a yellowish homogeneous fluid – t...
Microvascular networks are not simple straight microchannels but rather complex geometries composed ...
This paper aims to investigate the effect of both diverging and converging bifurcations on the flow ...
Blood exhibits unique flow characteristics on micro-scale level, due to the complex biochemical stru...
In the past years, in vitro blood studies have revealed several significant hemodynamic phenomena th...
In microcirculation, red blood cells (RBCs) flowing through bifurcations may deform considerably due...
One of the most interesting hemodynamic phenomenon observed in microchannels is the existence of a m...
The cell-free layer (CFL) is a hemodynamic phenomenon that has an important contribution to the rheo...
Bifurcations and branches in the microcirculation dramatically affect blood flow as they determine t...
In microcirculation, the cell-free layer (CFL) is a well-known physiological phenomenon that plays a...
The blood flow dynamics in microcirculation depends strongly on the microvascular networks composed ...
In the present work, in vitro blood flowing through a bifurcation microchannel was studied. The aim ...
Red blood cells (RBCs) in microchannels has tendency to undergo axial migration due tothe parabolic ...
The red blood cell (RBC) aggregation phenomenon is majorly responsible for the non-Newtonian nature ...
A few detailed studies have been performed in complex in vitro microvascular networks composed by bi...
Blood is an opaque, heterogeneous, non-Newtonian fluid composed by a yellowish homogeneous fluid – t...
Microvascular networks are not simple straight microchannels but rather complex geometries composed ...
This paper aims to investigate the effect of both diverging and converging bifurcations on the flow ...
Blood exhibits unique flow characteristics on micro-scale level, due to the complex biochemical stru...
In the past years, in vitro blood studies have revealed several significant hemodynamic phenomena th...
In microcirculation, red blood cells (RBCs) flowing through bifurcations may deform considerably due...
One of the most interesting hemodynamic phenomenon observed in microchannels is the existence of a m...
The cell-free layer (CFL) is a hemodynamic phenomenon that has an important contribution to the rheo...
Bifurcations and branches in the microcirculation dramatically affect blood flow as they determine t...
In microcirculation, the cell-free layer (CFL) is a well-known physiological phenomenon that plays a...
The blood flow dynamics in microcirculation depends strongly on the microvascular networks composed ...
In the present work, in vitro blood flowing through a bifurcation microchannel was studied. The aim ...
Red blood cells (RBCs) in microchannels has tendency to undergo axial migration due tothe parabolic ...
The red blood cell (RBC) aggregation phenomenon is majorly responsible for the non-Newtonian nature ...