Non-particulate continuum descriptions allow for computationally efficient modeling of suspension flows at scales that are inaccessible to more detailed particulate approaches. It is well known that the presence of particles influences the effective viscosity of a suspension and that this effect has thus to be accounted for in macroscopic continuum models. The present paper aims at developing a non-particulate model that reproduces not only the rheology but also the cell-induced velocity fluctuations, responsible for enhanced diffusivity. The results are obtained from a coarse-grained blood model based on the lattice Boltzmann method. The benchmark system comprises a flow between two parallel plates with one of them featuring a smooth obsta...
Many diseases are a result of, or are associated with, abnormal blood flow. Usually, these abnormali...
Nanodrug-carrier delivery in the blood stream is strongly influenced by nanoparticle (NP) dispersion...
The rheology of dense red blood cell suspensions is investigated via computer simulations based on t...
Non-particulate continuum descriptions allow for computationally efficient modeling of suspension fl...
Non-particulate continuum descriptions allow for computationally efficient modeling of suspension fl...
Human blood can be approximated as a dense suspension of red blood cells in plasma. Here, we present...
Human blood flow is a multiscale problem: in first approximation, blood is a dense suspension of pla...
Simulation of human blood flow is a demanding task both in terms of the complexity of applicable mod...
We present a continuum scale particle transport model for red blood cells following collision argume...
AbstractHistorically, predicting macroscopic blood flow characteristics such as viscosity has been a...
The numerical simulation of thrombosis in stented aneurysms is an important issue to estimate the ef...
While blood at the macroscopic scale is frequently treated as a continuum by techniques such as comp...
We present a continuum scale particle transport model for red blood cells following collision argum...
Many rheological properties of blood, along with transport properties of blood cells can be captured...
AbstractEfficient flow of red blood cells (RBCs) and white blood cells (WBCs) through the microcircu...
Many diseases are a result of, or are associated with, abnormal blood flow. Usually, these abnormali...
Nanodrug-carrier delivery in the blood stream is strongly influenced by nanoparticle (NP) dispersion...
The rheology of dense red blood cell suspensions is investigated via computer simulations based on t...
Non-particulate continuum descriptions allow for computationally efficient modeling of suspension fl...
Non-particulate continuum descriptions allow for computationally efficient modeling of suspension fl...
Human blood can be approximated as a dense suspension of red blood cells in plasma. Here, we present...
Human blood flow is a multiscale problem: in first approximation, blood is a dense suspension of pla...
Simulation of human blood flow is a demanding task both in terms of the complexity of applicable mod...
We present a continuum scale particle transport model for red blood cells following collision argume...
AbstractHistorically, predicting macroscopic blood flow characteristics such as viscosity has been a...
The numerical simulation of thrombosis in stented aneurysms is an important issue to estimate the ef...
While blood at the macroscopic scale is frequently treated as a continuum by techniques such as comp...
We present a continuum scale particle transport model for red blood cells following collision argum...
Many rheological properties of blood, along with transport properties of blood cells can be captured...
AbstractEfficient flow of red blood cells (RBCs) and white blood cells (WBCs) through the microcircu...
Many diseases are a result of, or are associated with, abnormal blood flow. Usually, these abnormali...
Nanodrug-carrier delivery in the blood stream is strongly influenced by nanoparticle (NP) dispersion...
The rheology of dense red blood cell suspensions is investigated via computer simulations based on t...