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Computational Fluid Dynamics
( Aoki Takayuki  )

Mon 7-8Session GSIC Exercise Room No2

Outline of lecture

This course will provide numerical methods to study fluid dynamics on computers. Not only knowledge of numerical schemes but also practical skill to execute numerical simulation will be obtained. By solving a lot of sample problems given in the class, programming skill will be mastered.

01.Overview of Computational Fluid Dynamics
02.Classification of partial differential equations
03.Numerical methods for hyperbolic equation
04.Numerical methods for parabolic and ellipsoidal equations.
05.Algorithms for Sparse matrix solver.
06.Typical schemes for compressible and incompressible fluids
07.Parallels computing of CFD
08.Visualization of CFD

Purpose of lecture

This course will provide numerical methods of Computational Fluid Dynamics (CFD). Not only knowledge of numerical schemes but also practical skill to execute numerical simulation will be obtained. By solving a lot of sample problems given in the class, programming skill will be mastered.

Plan of lecture

1.　Overview of Computational Fluid Dynamics
2.　Classification of partial differential equations
3.　Numerical methods for hyperbolic equation
4.　Numerical methods for parabolic and ellipsoidal equations.
5.　Algorithms for Sparse matrix solver.
6.　Typical schemes for compressible and incompressible fluids
7.　Parallel computing of CFD
8.　Visualization of CFD

Textbook and reference

Lecturer’s own text

Related and/or prerequisite courses

None

Evaluation

Report

Comment from lecturer

Recent trendy of numerical methods and supercomputers will be sometimes talked.