Lehrinhalte
Numerical flow modelling
[list]
[*] Concept of model, types of model, definition of "hydrodynamic-numerical model
[*] Mathematical formulation (conservation of mass, momentum and energy)
[*] The Navier-Stokes equations
[*] Boundary conditions for solving the equations
[*] Direct numerical simulation (DNS)
[*] Turbulence modelling
[*] Model selection and post-processing
[*] Calibration, sensitivity analysis and validation
[/list]
Applications in practice
[list]
[*] Workshop on ParaView (visualisation tool)
[*] Overview of HN models for practice (1D, 2D and 3D)
[*] Setup and operation of a 2D and a 3D HN model
[/list]
Online-Angebote
Moodle
Numerical flow modelling
[list]
[*] Concept of model, types of model, definition of "hydrodynamic-numerical model
[*] Mathematical formulation (conservation of mass, momentum and energy)
[*] The Navier-Stokes equations
[*] Boundary conditions for solving the equations
[*] Direct numerical simulation (DNS)
[*] Turbulence modelling
[*] Model selection and post-processing
[*] Calibration, sensitivity analysis and validation
[/list]
Applications in practice
[list]
[*] Workshop on ParaView (visualisation tool)
[*] Overview of HN models for practice (1D, 2D and 3D)
[*] Setup and operation of a 2D and a 3D HN model
[/list]
Online-Angebote
Moodle
- Lehrende: Katharina Bensing
- Lehrende: Boris Lehmann
Semester: WT 2021/22