AbstractA new method for the calculation of fluid-structure interaction (FSI) of highly flexible bodies is presented. This innovative algorithm demonstrates the strong coupling of a commercial computational fluid dynamics code with an in-house coded structural solver. The strong response of the pressure distribution to the displacement can be approximated by a reduced order model for the fluid solver. The Jacobian of this reduced order model is then used in the structural solver to obtain a stable and full implicit iteration scheme. The method is demonstrated on a 2D model of a flexible aortic valve during the cardiac cycle. Furthermore, the model is able to calculate shear stresses on the leaflet
This thesis is motivated by the modelling and the simulation of fluid-structure interaction phenomen...
The ever-increasing available computational power allows for solving more complex physical problems ...
In this work, we apply a fluid-structure interaction method to a long axis heart valve simulation. ...
AbstractA new method for the calculation of fluid-structure interaction (FSI) of highly flexible bod...
A new method for the computation of fluid-structure interaction (FSI) of highly flexible bodies is p...
One of the major challenges in the design of Bileaflet Mechanical Heart Valves (BMHVs) is reduction ...
In this thesis we focus on the numerical analysis and the development of efficient partitioned algor...
We review and compare different fluid-structure interaction (FSI) numerical methods in the context ...
We present a newly developed Fluid-Structure Interaction coupling algorithm to simulate Bileaflet Me...
The paper describes a new and powerful technique to solve strongly coupled fluid-structure interacti...
The numerical simulation of Bileaflet Mechanical Heart Valves (BMHVs) has gained strong interest in ...
A computational method is proposed for problems where fluid–structure interaction is combined with s...
One of the major challenges in the design of Bileaflet Mechanical Heart Valves (BMHVs) is reduction ...
Numerical simulations are a powerful tool in investigation of flow and structure dynamics in biolog...
Bileaflet Mechanical Heart Valves (BMHVs) are preferred for valve replacement. However, current BMHV...
This thesis is motivated by the modelling and the simulation of fluid-structure interaction phenomen...
The ever-increasing available computational power allows for solving more complex physical problems ...
In this work, we apply a fluid-structure interaction method to a long axis heart valve simulation. ...
AbstractA new method for the calculation of fluid-structure interaction (FSI) of highly flexible bod...
A new method for the computation of fluid-structure interaction (FSI) of highly flexible bodies is p...
One of the major challenges in the design of Bileaflet Mechanical Heart Valves (BMHVs) is reduction ...
In this thesis we focus on the numerical analysis and the development of efficient partitioned algor...
We review and compare different fluid-structure interaction (FSI) numerical methods in the context ...
We present a newly developed Fluid-Structure Interaction coupling algorithm to simulate Bileaflet Me...
The paper describes a new and powerful technique to solve strongly coupled fluid-structure interacti...
The numerical simulation of Bileaflet Mechanical Heart Valves (BMHVs) has gained strong interest in ...
A computational method is proposed for problems where fluid–structure interaction is combined with s...
One of the major challenges in the design of Bileaflet Mechanical Heart Valves (BMHVs) is reduction ...
Numerical simulations are a powerful tool in investigation of flow and structure dynamics in biolog...
Bileaflet Mechanical Heart Valves (BMHVs) are preferred for valve replacement. However, current BMHV...
This thesis is motivated by the modelling and the simulation of fluid-structure interaction phenomen...
The ever-increasing available computational power allows for solving more complex physical problems ...
In this work, we apply a fluid-structure interaction method to a long axis heart valve simulation. ...