Event
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Event
Semester:
Summer term
2017
5.04.4074 Computational Fluid Dynamics II -
Event date(s) | room
- Donnerstag, 6.4.2017 10:00 - 12:00 | W33 0-003
- Donnerstag, 13.4.2017 10:00 - 12:00 | W33 0-003
- Donnerstag, 20.4.2017 10:00 - 12:00 | W33 0-003
- Donnerstag, 27.4.2017 10:00 - 12:00 | W33 0-003
- Donnerstag, 4.5.2017 10:00 - 12:00 | W33 0-003
- Donnerstag, 11.5.2017 10:00 - 12:00 | W33 0-003
- Donnerstag, 18.5.2017 10:00 - 12:00 | W33 0-003
- Donnerstag, 1.6.2017 10:00 - 12:00 | W33 0-003
- Donnerstag, 8.6.2017 10:00 - 12:00 | W33 0-003
- Donnerstag, 15.6.2017 10:00 - 12:00 | W33 0-003
- Donnerstag, 22.6.2017 10:00 - 12:00 | W30 0-033/34 - Belegunsplan in Outlook prüfen
- Donnerstag, 29.6.2017 10:00 - 12:00 | W33 0-003
- Donnerstag, 6.7.2017 10:00 - 12:00 | W33 0-003
Description
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.
Content:
CFD II: Introduction to different CFD models, such as OpenFOAM and PALM. Application of these CFD models to defined problems from rotor aerodynamics and the atmospheric boundary layer.
Lecturers
Modules
- mar730 Energiesysteme (ES)
- phy350 Vertiefungsmodul II
- phy611 Theoretical Methods
- phy664 Specialization II
Study fields
- olt505 Subject-oriented techniques/ knowledge
- olt507 Additional module "Specific knowledge"
- Studium generale / Gasthörstudium
Lehrsprache
englisch
Anzahl der freigegebenen Plätze für Gasthörende
5
Für Gasthörende / Studium generale geöffnet:
Ja
Hinweise zum Inhalt der Veranstaltung für Gasthörende
Content:
• 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.
• Content:
• 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.
Hinweise zur Teilnahme für Gasthörende
You should also take CFD I or have experience in CFD - also you should be firm in fluid dynamics in general