Lab Course CFD Introduction Dr Miriam Mehl CFD
Lab Course CFD Introduction Dr. Miriam Mehl
CFD – Applications stirrers
CFD – Applications biological wastewater treatment
CFD – Applications air pollution
CFD – Applications aerodynamics
CFD – Our Examples driven cavity (Worksheet 1)
CFD – Our Examples channel flow (Worksheet 2)
CFD – Our Examples Karman vortex street (Worksheet 2)
CFD – Our Examples falling drop (Worksheet 3)
Technical Aspects • methods: Ø finite difference discretization Ø iterative solvers
Technical Aspects • implementation: Ø programming language C Ø program frame given Ø parallelization with MPI • visualization with Para. View
Organization • 4 worksheets • 3 weeks working time • all details on the worksheets • understanding the background Ø lecture
Groups • up to three participants • mixed skills • groups fixed at first submission
Submission of Results • email to neckel@in. tum. de (Thur, 9 am) • personal presentation Ø presentation date with us (Thur) Ø be prepared to questions!
Timetable • worksheet 1: April 18 – May 8 • worksheet 2: May 9 – May 29 • worksheet 3: May 30 – June 19 • worksheet 4: June 20 – July 10
Where to Ask Questions • questions on lectures: Miriam Mehl, Tobias Neckel, Tobias Weinzierl • questions on worksheets/implementation: Tobias Neckel, Tobias Weinzierl
Email Adresses • Miriam Mehl: mehl@in. tum. de • Tobias Neckel: neckel@in. tum. de • Tobias Weinzierl: weinzier@in. tum. de
The Navier-Stokes Equations • momentum equation – change of velocities in time – depends on velocities and pressure • continuity equation – side condition – depends on velocities
- Slides: 18