Add to ORKGSimulation of human blood flow is a demanding task both in terms of the complexity of applicable models and the computational effort. One reason is the particulate nature of blood which in first approximation may be treated as a suspension of red blood cells (RBCs) in blood plasma. A second reason is that in realistic geometries typical length scales vary over several orders of magnitude. Usual computational models either cope with this complexity by implementing only a homogenous although non-Newtonian fluid or highly resolve relatively small numbers of RBCs by means of deformable meshes. We developed a coarse-grained and highly efficient yet still particulate model for blood that allows us to simulate up to millions of cells on current pa...
Many rheological properties of blood, along with transport properties of blood cells can be captured...
We present an improved lattice Boltzmann model of multi-component flow which permits practical, hydr...
AbstractHistorically, predicting macroscopic blood flow characteristics such as viscosity has been a...
Simulation of human blood flow is a demanding task both in terms of the complexity of applicable mod...
Change of title: Mesoscale hemodynamics with coarse-grained lattice Boltzmann-molecular dynamics sim...
Human blood flow is a multiscale problem: in first approximation, blood is a dense suspension of pla...
Human blood can be approximated as a dense suspension of red blood cells in plasma. Here, we present...
While blood at the macroscopic scale is frequently treated as a continuum by techniques such as comp...
We present a computational framework for the simulation of blood flow with fully resolved red blood ...
Accurate and reliable modeling of cardiovascular hemodynamics has the potential to improve understan...
Whole blood is a complex suspension of cells, where the emergent rheology and transport phenomena ar...
There are many important systems which involve the flow of dense suspensions of deformable particle...
Many diseases are a result of, or are associated with, abnormal blood flow. Usually, these abnormali...
AbstractEfficient flow of red blood cells (RBCs) and white blood cells (WBCs) through the microcircu...
This thesis develops a mesoscopic technique based on the numerical concepts of Lattice Boltzmann Met...
Many rheological properties of blood, along with transport properties of blood cells can be captured...
We present an improved lattice Boltzmann model of multi-component flow which permits practical, hydr...
AbstractHistorically, predicting macroscopic blood flow characteristics such as viscosity has been a...
Simulation of human blood flow is a demanding task both in terms of the complexity of applicable mod...
Change of title: Mesoscale hemodynamics with coarse-grained lattice Boltzmann-molecular dynamics sim...
Human blood flow is a multiscale problem: in first approximation, blood is a dense suspension of pla...
Human blood can be approximated as a dense suspension of red blood cells in plasma. Here, we present...
While blood at the macroscopic scale is frequently treated as a continuum by techniques such as comp...
We present a computational framework for the simulation of blood flow with fully resolved red blood ...
Accurate and reliable modeling of cardiovascular hemodynamics has the potential to improve understan...
Whole blood is a complex suspension of cells, where the emergent rheology and transport phenomena ar...
There are many important systems which involve the flow of dense suspensions of deformable particle...
Many diseases are a result of, or are associated with, abnormal blood flow. Usually, these abnormali...
AbstractEfficient flow of red blood cells (RBCs) and white blood cells (WBCs) through the microcircu...
This thesis develops a mesoscopic technique based on the numerical concepts of Lattice Boltzmann Met...
Many rheological properties of blood, along with transport properties of blood cells can be captured...
We present an improved lattice Boltzmann model of multi-component flow which permits practical, hydr...
AbstractHistorically, predicting macroscopic blood flow characteristics such as viscosity has been a...