Syllabus data
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Teacher name : SATO Makoto
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Academic year
2025Year
Term
First Semester
Course title
Advanced Aero Thermal Fluid Mechanics
Class type
Lecture
Course title (ENG)
Advanced Aero Thermal Fluid Mechanics
Class code・Class name・Teaching forms
Z1100043 Advanced Aero Thermal Fluid Mechanics
Instructor
SATO Makoto
Credits
2.0Credits
Day and Time
Thu.2Period
Campus
Shinjuku Campus
Location
A-0865教室
Relationship between diploma policies and this course
A) A high degree of specialized expertise 100%
B) The skills to use science and technology 0% C) The ability to conduct research independently, knowledge pertaining to society and occupations, and sense of ethics required of engineers and researchers 0% D) Creative skills in specific areas of specialization 0% Goals and objectives
1. Understand of the compressibility of the fluid, Mach number
2. Understand of the dynamics of a shock wave and detonation 3. Acquire knowledge of the engineering applications based on the compressible fluid dynamics, such as a supersonic airplane, rocket, re-entry capsule, explosion etc. Prerequisites
Basic knowledge of fluid mechanics (Especially for incompressible fluid)
Method Using AL・ICT
Not used
Class schedule
01. [Guidance] Introduction for the “high-speed flow” by showing the engineering applications and natural phenomena
02. [Incompressible fluid] Review of incompressible fluid dynamics and thermodynamics Preparation for learning: Review of Lecture01 03. [Compressible fluid] Sound wave and shock wave Preparation for learning: Review of Lecture01 04. [Sound speed and Mach number] Subsonic, Transonic, Supersonic, Hypersonic flow Preparation for learning: Review of Lecture03 05. [Conservation law①] Mass conservation law, Momentum conservation law Preparation for learning: Review of Lecture04 06. [Conservation law②] Energy conservation law Preparation for learning: Review of Lecture05 07. [Supersonic jet ①] Convergent nozzle Preparation for learning: Review of Lecture06 08. [Supersonic jet ②] Laval nozzle Preparation for learning: Review of Lecture07 09. [Shock wave ①] Normal shock wave Preparation for learning: Review of Lecture08 10. [Shock wave ②] Oblique shock wave Preparation for learning: Review of Lecture09 11. [Detonation ①] Basis of detonation Preparation for learning: Review of Lecture10 12. [Detonation ②] PDE(Pulse detonation engine), RDE(Rotating Detonation Engine) Preparation for learning: Review of Lecture11 13. [Explosion] Blastwave from the explosion, Damage by blastwave Preparation for learning: Review of Lecture12 14. [Next-generation aircraft] Next-generation aircraft Preparation for learning: Review of Lecture1 - 13 15. [Review of the course] Review of the course from the on-demand study. #There is a possibility to change the lecture method. Evaluation
Grading is generally evaluated by reports.
Feedback for students
An exercise is conducted in each lecture.
I will show comments on the answer of the exercise. Textbooks
Nothing.
I will distribute the resume in each lecture. Reference materials
圧縮性流体力学 -内部流れの理論と解析-,松尾一泰,理工学社
Office hours and How to contact teachers for questions
Offline:16:00-17:00 on Thursday @A-1778, Shinjuku Campus
Online: Anytime, E-mail msato@cc.kogakuin.ac.jp Message for students
Course by professor with work experience
Not applicable
Work experience and relevance to the course content if applicable
Teaching profession course
Mechanical Engineering Program
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