This class will not be open in 2021.
This course introduces a fundamental concept and knowledge of mathematical modeling of complex fluid systems related to the design of transportation system, the prediction of ocean environment, etc. The basic equations and the general concept of computational fluid dynamics (CFD) are introduced: basic concepts of fluid flow, finite difference scheme, solution of linear equation systems, methods for unsteady flow, etc. The CFD technique is then applied to large-scale fluid systems. This course is basically provided by English language, with Japanese language for key technical terms.
Ferziger J. H. and Peric M. (2002) Computational Methods for Fluid Dynamics, Springer
| No. | Date | Subject |
|---|---|---|
| 1 | April 20 | Introduction |
| 2 | April 27 | Basic concepts of fluid flow |
| 3 | May 11 | Approximation of the spatial derivative |
| 4 | May 18 | Solution of linear equation systems |
| 5 | May 25 | Application to diffusion equation |
| 6 | June 8 | Methods for unsteady flow |
| 7 | June 15 | Application to transport equation |
| 8 | June 22 | Solution of the Navier-Stokes equation |
| 9 | June 29 | Turbulence flows |
| 10 | July 6 | Large-scale fluid systems |
| 11 | July 13 | Application to complex fluid systems |
