Introduction to Computational Fluid Dynamics
Monday 20 January 2014 - Friday 24 January 2014VKI secretariat, This email address is being protected from spambots. You need JavaScript enabled to view it.; Phone: +32 2 359 96 04
The objective of this course is to provide an elementary tutorial presentation on computational fluid dynamics (CFD), emphasizing the fundamentals and surveying a variety of solution techniques whose applications range from low speed incompressible flow to hypersonic flow. The course is aimed at persons who have had little or no experience in this field, both recent graduates as well as professional engineers, and will provide
- an insight into the philosophy and power of CFD
- an understanding of the mathematical nature of the fluid dynamics equations
- a familiarity with various solution techniques
At the conclusion of the course, an attendee will be well prepared to understand the literature in this field, to follow more sophisticated state-of-the-art lecture series, and to begin the application of CFD to his or her special areas of concern. While the techniques to be discussed will be applicable to all fields of fluid dynamics, the lecturers and the majority of examples presented will carry a strong flavor of aeronautics.
The Director of this lecture series is Professor G. Degrez of the von Karman Institute.
Program
Monday 20 January 2014
- 08:45 Registration
- 09:15 Welcome, introductory remarks
- 09:45 Basic philosophy of CFD
Prof. J.D. Anderson, Jr., University of Maryland, USA - 11:00 Forms of the governing equations particularly suited for CFD: non-conservative, conservative, flux vectors
Prof. J.D. Anderson, Jr. - 14:00 Mathematical properties of the fluid dynamic equations : influence on appropriate numerical techniques; stability considerations
Prof. J.D. Anderson, Jr. - 15:45 Mathematical properties of the fluid dynamic equations (continued)
Prof. J.D. Anderson, Jr. - 17:00 Reception
Tuesday 21 January 2014
- 09:00 Discretisation of partial differential equations: finite differences
Prof. J.D. Anderson, Jr. - 11:00 Discretisation of partial differential equations (continued)
Prof. J.D. Anderson, Jr. - 14:00 Transformation and grids
Prof. J.D. Anderson, Jr. - 15:45 Explicit methods for inviscid and viscous compressible flows
Prof. J.D. Anderson, Jr.
Wednesday 22 January 2014
- 09:00 Explicit methods (continued)
Prof. J.D. Anderson, Jr. - 11:00 Implicit time dependent methods for inviscid and viscous compressible flows
Prof. G. Degrez, von Karman Institute, Belgium - 14:00 Implicit methods (continued)
Prof. G. Degrez - 15:45 Implicit methods (continued)
Prof. G. Degrez
Thursday 23 January 2014
- 09:00 Implicit methods (continued)
Prof. G. Degrez - 11:00 Finite volume methods
Prof. E. Dick, University of Gent, Belgium - 14:00 Finite element methods
Prof. E. Dick - 15:45 Finite element methods (continued)
Prof. E. Dick
Friday 24 January 2014
- 09:00 Aspects of CFD computations with commercial packages
Prof. J. Vierendeels, University of Gent, Belgium - 11:00 A brief introduction to turbulence models
Dr.-Ing. F. Menter, Ansys, Germany - 13:45 A brief introduction to turbulence models (continued)
Dr.-Ing. F. Menter - 15:00 Adjourn
Fee
Type 1: Permanents residents of NATO countries funding VKI: Belgium, Czech Republic, France, Germany, Hungary, Iceland, Italy, Luxemburg, Norway, Portugal, Spain and Turkey
Type 2: Permanents residents of NATO countries not funding VKI or NATO partners countries
Type 3: Permanents residents of non -NATO countries
For the PhD candidate and undergraduate student: The request to be considered for an award must accompany the application to attend the Lecture Series, and the applicant must provide a recommendation letter from his or her professor; if not done so, the request will not be taken into consideration. All possible alternative sources of funding should be investigated before aid is requested under this scheme, so that those most in need will benefit.
REDUCTION
-50% for the 3rd & 4th participant from the same company.
METHOD OF PAYMENT
Payment 2 weeks prior to the beginning of the course (name and course title clearly indicated) by bank transfer to our account IBAN BE57 2100 3153 3035 , SWIFT BIC GEBABEBB
Location : von Karman Institute for Fluid Dynamics, Sint-Genesius-Rode (near Brussels), Belgium