Gallery
Fluid-structure Interaction
| Image | Description |
|---|---|
 | * GLS-FEM * Biharmonic Dynamic Mesh * Generalized-alpha Time Integration * Saint Venant-Kirchhoff model (Hyperelastic) |
 | * GLS-FEM * Cylindrical Coordinate Formulation * Generalized-alpha Time Integration * Rotating Dynamic Mesh |
 | * GLS-FEM * Biharmonic Dynamic Mesh * Generalized-alpha Time Integration * Arbitrary Lagrangian-Eulerian Description |
 | * GLS-FEM * Generalized-alpha Time Integration * Large-eddy Simulation |
 | * GLS-FEM * k-omega SST Turbulence Model based on FEM * Generalized-alpha Time Integration |
 | * GLS-FEM * Biharmonic Dynamic Mesh * Generalized-alpha Time Integration |
 | * GLS-FEM * (2D) Asymmetric Nitsche Methods * Generalized-alpha Time Integration * (2D) Ghost-penalty Method * Rigid-body Contact Model |
 | * GLS-FEM * 3D (Asymmetric) Nitsche Methods * Generalized-alpha Time Integration * (3D) Ghost-penalty Method |
 | * GLS-FEM * 3D (Asymmetric) Nitsche Methods * Generalized-alpha Time Integration * (3D) Ghost-penalty Method |
Heat & Mass Transfer
| Image | Description |
|---|---|
 | * GLS-FEM * Asymmetric Nitsche Methods * Generalized-alpha Time Integration * Ghost-penalty Method * Heat & Mass Transfer |
 | * GLS-FEM * Buoyancy-driven Double Diffusive Heat & Mass Transfer Formulation * Generalized-alpha Time Integration |
Plasma Physics in Tokamak
| Image | Description |
|---|---|
 | * Anisotropic Heat Transport of Plasma (magnetic field at 45 deg.) * Anisotropic Thermal Tensor * Finite Element Method |