- Lecturer
- Xiao Feng Nagasaki Takao Aoki Takayuki
- Place
- Tue3-4(G511)
- Credits
- Lecture2 Exercise0 Experiment0
- Code
- 93029
- Syllabus updated
- 2011/4/22
- Lecture notes updated
- 2011/3/24
- Semester
- Spring Semester
Outline of lecture
Outline of the lectures:
1. General principles and governing equations for fluid
2. Basic Numerical schemes
3. Numerical solutions for typical differential equations
4. Numerical methods for incompressible flow
5. Numerical methods for compressible flow
6. Numerical models for turbulent flow
7. High performance computing (parallel, GPU computing etc.)
8. Advanced topics
Purpose of lecture
This English course presents the fundamental knowledge and preliminary applications of computational fluid dynamics, as well as efficient implementations on advanced hardware architectures. The students are expected to be able to use numerical methods to solve some typical problems in fluid dynamics through class instructions, exercises and programming practices.
Plan of lecture
Teaching agenda of spring semester 2011
4/12: Introduction and governing equations of fluid dynamics
4/19: Accelerator (GPU) computing for CFD
4/26: Fundamentals of numerical methods(1)
5/3 : Fundamentals of numerical methods(2)
5/10: Numerical methods for compressible flows (1)
5/17: Numerical methods for compressible flows (2)
5/24: Accuracy and stability of numerical schemes
5/28: Sparse matrix solver
5/31: Parallel computing
6/7 : Numerical methods for compressible flows (3)
6/14: Numerical methods for incompressible flows (1)
6/18: Numerical methods for incompressible flows (2)
6/21: Numerical methods for incompressible flows (3)
6/28: Numerical methods for turbulent flows
7/5 : Numerical methods for interfacial multi-phase flows
Textbook and reference
1. Anderson, J.D., Computational Fluid Dynamics - The Basics with Applications; McGraw-Hill, Inc. 1995
2. Hirsch C., Volume 1&2, Numerical Computational of Internal and External Flows;
John Wiley & Sons, 2001
3. Ferziger, J.H. and Peric, M., Computational Methods for Fluid Dynamics; Springer, 1999
4. Fletcher C.A.J., Computational Techniques for Fluid Dynamics; Springer, 2000
5. Cebeci, T. and Cousteix, J., Modeling and Computation of Boundary-Layer Flows; Horizons Publishing Inc. 1999, 2005
Related and/or prerequisite courses
The prospective students are expected to have finished the fundamental courses on mathematics and mechanics of under graduate level.
Evaluation
Class attendance, excises, tests and reports
Contact Information
xiaoツシes.titech.ac.jp
