You should also take CFD I or have experience in CFD - also you should be firm in fluid dynamics in general
• Deeper understanding of the fundamental equations of fluid dynamics.
• Overview of numerical methods for the solution of the fundamental equations of fluid dynamics.
• Confrontation with complex problems in fluiddynamics.
• To become acquainted with different, widely used CFD models that are used to study complex problems in fluid dynamics.
• Ability to apply these CFD models to certain defined problems and to critically evaluate the results of numerical models.
• CFD I: The Navier-Stokes equations, filtering
• averaging of Navier- Stokes equations, introduction to numerical methods, finite- differences, finite-volume methods, linear equation systems, NS-solvers, RANS, URANS, LES, DNS, turbulent flows, incompressible flows, compressible flows, efficiency and accuracy.