Add to ORKGThe implementations of an updated body-fitted and a non body-fitted method to deal with the interaction of a fluid and a rigid body are described. The physics of the fluid is modeled by the incompressible Navier-Stokes equations. A parallel fluid solver based on the VMS (Variational Multiscale) Finite Element method serves as the basis for the implementation. For the rigid body movement, the Newton-Euler equations are solved numerically. To account for the interaction, the force that the fluid exerts on the rigid body is determined, on the one hand. On the other hand, the velocity of the rigid body is imposed as a Dirichlet boundary condition on the fluid. A fixed Eulerian mesh discretizes the fluid domain, except for nodes in the vicinity ...
The behaviour of liquids and gases ranks among the most familiar and yet complex physical phenomena ...
We present direct numerical simulations for the flow of an Oldroyd-B fluid around a stationary cylin...
We develop an immersed boundary (IB) method for modeling flows around fixed or moving rigid bodies t...
The implementations of an updated body-fitted and a non body-fitted method to deal with the interact...
This thesis is based on the implementation of a computational system to numerically simulate the int...
An accurate, efficient and robust numerical scheme is presented for the simulation of the interactio...
We consider the problem of moving rigid bodies in a Newtonian fluid. The fluid-solid problem is solv...
A monolithic method for numerically solving fluid--structure interactions between viscous flow on an...
A new fluid-structure interaction approach for bio-inspired regime is presented. In this method, the...
The application of Computational Fluid Dynamics to model and simulate flows around flexible and movi...
A novel immersed boundary method is introduced for simulating the fluid-structure interaction proble...
We studied numerically the dynamics of colliding rigid bodies in a Newtonian fluid. The finite eleme...
The immersed finite element method (IFEM) takes places as a method developed for the purpose of solv...
The interaction problem of incompressible fluid and incompressible elastic material in the so-called...
The behaviour of liquids and gases ranks among the most familiar and yet complex physical phenomena ...
We present direct numerical simulations for the flow of an Oldroyd-B fluid around a stationary cylin...
We develop an immersed boundary (IB) method for modeling flows around fixed or moving rigid bodies t...
The implementations of an updated body-fitted and a non body-fitted method to deal with the interact...
This thesis is based on the implementation of a computational system to numerically simulate the int...
An accurate, efficient and robust numerical scheme is presented for the simulation of the interactio...
We consider the problem of moving rigid bodies in a Newtonian fluid. The fluid-solid problem is solv...
A monolithic method for numerically solving fluid--structure interactions between viscous flow on an...
A new fluid-structure interaction approach for bio-inspired regime is presented. In this method, the...
The application of Computational Fluid Dynamics to model and simulate flows around flexible and movi...
A novel immersed boundary method is introduced for simulating the fluid-structure interaction proble...
We studied numerically the dynamics of colliding rigid bodies in a Newtonian fluid. The finite eleme...
The immersed finite element method (IFEM) takes places as a method developed for the purpose of solv...
The interaction problem of incompressible fluid and incompressible elastic material in the so-called...
The behaviour of liquids and gases ranks among the most familiar and yet complex physical phenomena ...
We present direct numerical simulations for the flow of an Oldroyd-B fluid around a stationary cylin...
We develop an immersed boundary (IB) method for modeling flows around fixed or moving rigid bodies t...