We present a continuum scale particle transport model for red blood cells following collision arguments, in a diffusive flux formulation. The model is implemented in FOAM, in a framework suitable for haemodynamics simulations and adapted to multi-scaling. Specifically, the framework we present is able to ingest transport coefficient models to be derived, prospectively, from complimentary but independent meso-scale simulations. For present purposes, we consider modern semi-mechanistic rheology models, which we implement and test as proxies for such data. The model is verified against a known analytical solution and shows excellent agreement for high quality meshes and good agreement for typical meshes as used in vascular flow simulations. Si...
Whole blood is a complex suspension of cells, where the emergent rheology and transport phenomena ar...
Red blood cell (RBC) migration effects and RBC–plasma interactions occurring in microvessel blood fl...
AbstractHistorically, predicting macroscopic blood flow characteristics such as viscosity has been a...
We present a continuum scale particle transport model for red blood cells following collision argum...
We present a continuum scale particle transport model for red blood cells following collision argume...
We present a continuum scale particle transport model for red blood cells following collision argume...
Non-particulate continuum descriptions allow for computationally efficient modeling of suspension fl...
Blood is an important fluid for the human body. It exhibits a complex behavior in terms of rheology ...
Human blood flow is a multiscale problem: in first approximation, blood is a dense suspension of pla...
In-silico cellular models of blood are invaluable to gain understanding about the many interesting p...
In-silico cellular models of blood are invaluable to gain understanding about the many interesting p...
Human blood can be approximated as a dense suspension of red blood cells in plasma. Here, we present...
Simulation of human blood flow is a demanding task both in terms of the complexity of applicable mod...
Non-particulate continuum descriptions allow for computationally efficient modeling of suspension fl...
Many of the intriguing properties of blood originate from its cellular nature. Therefore, accurate m...
Whole blood is a complex suspension of cells, where the emergent rheology and transport phenomena ar...
Red blood cell (RBC) migration effects and RBC–plasma interactions occurring in microvessel blood fl...
AbstractHistorically, predicting macroscopic blood flow characteristics such as viscosity has been a...
We present a continuum scale particle transport model for red blood cells following collision argum...
We present a continuum scale particle transport model for red blood cells following collision argume...
We present a continuum scale particle transport model for red blood cells following collision argume...
Non-particulate continuum descriptions allow for computationally efficient modeling of suspension fl...
Blood is an important fluid for the human body. It exhibits a complex behavior in terms of rheology ...
Human blood flow is a multiscale problem: in first approximation, blood is a dense suspension of pla...
In-silico cellular models of blood are invaluable to gain understanding about the many interesting p...
In-silico cellular models of blood are invaluable to gain understanding about the many interesting p...
Human blood can be approximated as a dense suspension of red blood cells in plasma. Here, we present...
Simulation of human blood flow is a demanding task both in terms of the complexity of applicable mod...
Non-particulate continuum descriptions allow for computationally efficient modeling of suspension fl...
Many of the intriguing properties of blood originate from its cellular nature. Therefore, accurate m...
Whole blood is a complex suspension of cells, where the emergent rheology and transport phenomena ar...
Red blood cell (RBC) migration effects and RBC–plasma interactions occurring in microvessel blood fl...
AbstractHistorically, predicting macroscopic blood flow characteristics such as viscosity has been a...