Medium and advance course of fluid mechanics will be given. The mathematical description of fluid motion, the derivation of
Bernulli’s equation and Navier-Stokes equation, the potential flow theory, and boundary layer theory will be explained as
well as the overview and introduction of computational fluid dynamics.
Review of basic fluid mechanics and advanced contents of potential flow, baundary layer theory and derivation of Navier-Stokes
equations.
- To understand Bernulli’s equation and Navier-Stokes equation and to obtain skills for solving the related problems
- To understand the boundary theory and to obtain skills for solving the related problems
- To obtain fundamental knowledge of the potential flow theory
- To obtain fundamental knowledge of the thermally-driven convection phenomena
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | General instruction of the course | Review of basic fluid mechanics | 190minutes |
| 2. | Description of fluid motion | Preview of the corresponding chapter of the textbook | 190minutes |
| 3. | Euler’s equation and Bernoulli’s equation | Preview of the corresponding chapter of the textbook | 190minutes |
| 4. | Conservation law of momentum and angular momentum of flow | Preview of the corresponding chapter of the textbook | 190minutes |
| 5. | Potential flow theory (1) | Preview of the corresponding chapter of the textbook | 190minutes |
| 6. | Potential flow theory (2) | Solve and submit the quiz problems (1) | 190minutes |
| 7. | Description of motion of viscous fluid | Preview of the corresponding chapter of the textbook | 190minutes |
| 8. | Navier-Stokes equation (1) | Preview of the corresponding chapter of the textbook | 190minutes |
| 9. | Navier-Stokes equation (2) | Preview of the corresponding chapter of the textbook | 190minutes |
| 10. | Turbulent flow | Preview of the corresponding chapter of the textbook | 190minutes |
| 11. | Boundary layer theory (1) | Preview of the corresponding chapter of the textbook | 190minutes |
| 12. | Boundary layer theory (2) | Preview of the corresponding chapter of the textbook | 190minutes |
| 13. | nterrelation of heat flow and fluid flow | Preview of the corresponding chapter of the textbook | 190minutes |
| 14. | Examination | Answers will be explained after exam. | 190minutes |
| Total. | - | - | 2660minutes |
| report papers | examination | Total. | |
|---|---|---|---|
| 1. | 15% | 15% | 30% |
| 2. | 15% | 15% | 30% |
| 3. | 15% | 15% | 30% |
| 4. | 5% | 5% | 10% |
| Total. | 50% | 50% | - |
Report papers 50% and Examination 50%. Student with more than 60% of the combined score will be given credit.
Textbook: “Fluid Dynamics” by T. Ishima and K. Amagai (Morikita Publishing Co., Ltd.) (English/Japanese)
Reference book: “Fluid Mechanics” by Japan Society of Mechanical Engineers (Maruzen) (Japanese)
Reference book: “Fluid Mechanics” by Japan Society of Mechanical Engineers (Maruzen) (Japanese)
Review of basic fluid mechanics
Basic knowledge of vector analysis and differential equations
Basic knowledge of vector analysis and differential equations
- Monday, 16:50~18:30. Appointment in advance is preferable.
- Course that cultivates an ability for utilizing knowledge
| Work experience | Work experience and relevance to the course content if applicatable |
|---|---|
| Applicatable | The professor used to work on R&D in semiconductor industry. The research was related to fluid mechanics. |
Last modified : Thu Mar 21 14:27:32 JST 2019