| Academic Year |
2025Year |
School/Graduate School |
Graduate School of Advanced Science and Engineering (Master's Course) Division of Advanced Science and Engineering Mechanical Engineering Program |
| Lecture Code |
WSH20302 |
Subject Classification |
Specialized Education |
| Subject Name |
Advanced Reactive Gas Dynamics |
Subject Name
(Katakana) |
|
Subject Name in
English |
Advanced Reactive Gas Dynamics |
| Instructor |
ENDO TAKUMA,JOZAKI TOMOYUKI,KIM WOOKYUNG |
Instructor
(Katakana) |
エンドウ タクマ,ジョウザキ トモユキ,キム ウキョン |
| Campus |
Higashi-Hiroshima |
Semester/Term |
1st-Year, Second Semester, 3Term |
| Days, Periods, and Classrooms |
(3T) Mon5-8:ENG 110 |
| Lesson Style |
Lecture |
Lesson Style
(More Details) |
Face-to-face |
| If face-to-face lectures are impossible by some reasons, the lectures will be given online (on-demand). |
| Credits |
2.0 |
Class Hours/Week |
4 |
Language of Instruction |
E
:
English |
| Course Level |
5
:
Graduate Basic
|
| Course Area(Area) |
25
:
Science and Technology |
| Course Area(Discipline) |
10
:
Integrated Engineering |
| Eligible Students |
Master-course students |
| Keywords |
Dimensional Analysis, Plasma, Radiation, Gaseous Explosion |
| Special Subject for Teacher Education |
|
Special Subject |
|
Class Status
within Educational
Program
(Applicable only to targeted subjects for undergraduate students) | |
|---|
Criterion referenced
Evaluation
(Applicable only to targeted subjects for undergraduate students) | |
|---|
Class Objectives
/Class Outline |
Students learn fundamentals of dimensional analysis, plasma physics, radiative processes, and gaseous explosion. |
| Class Schedule |
lesson1: Introduction, Dimensional Analysis (period of a pendulum, pressure drop in a flow through a straight tube) [Endo]
lesson2: Dimensional Analysis (basic quantity and derived quantity, dimensional matrix, Pi theorem) [Endo]
lesson3: Dimensional Analysis (relevance list, procedure of dimensional analysis, viscosity of an ideal gas) [Endo]
lesson4: Dimensional Analysis (mass flow rate of a steady incompressible flow in a cylindrical straight tube, Navier-Stokes equation, principle of an experiment with a model) [Endo]
lesson5: Introduction of radiative process [Johzaki]
lesson6: Black body radiation [Johzaki]
lesson7: Radiative Transfer 1(derivation, emittance) [Johzaki]
lesson8: Radiative Transfer 2 (Surface brightness, radiative temperature) [Johzaki]
lesson9: Emission, Absorption and Scattering Processes [Johzaki]
lesson10: Numerical Solution of radiative transfer equation [Johzaki]
lesson11: Chemical Kinetics (Zeroth order reactions, First order reactions, Second order reactions) [Kim]
lesson12: Chemical Kinetics (Chemical equilibrium, Consecutive reactions, Rate-determining step) [Kim]
lesson13: Flame propagation and Instabilities (Burning velocity, Flame stretch, Dimensionless numbers) [Kim]
lesson14: Flame propagation and Instabilities (Diffusional-thermal instability, Hydrodynamic instability, Rayleigh-Taylor instability) [Kim]
lesson15: Flame propagation and Instabilities (Flame acceleration, Self similar, Fractal dimension) [Kim]
Term-end paper |
Text/Reference
Books,etc. |
Handouts will be distributed. |
PC or AV used in
Class,etc. |
Handouts, moodle |
| (More Details) |
PC projector. |
| Learning techniques to be incorporated |
|
Suggestions on
Preparation and
Review |
lessons 1-4: Dimensional Analysis
lessons 5-10: Plasma, Radiation Process
lessons 11-15: Gaseous Explosion |
| Requirements |
|
| Grading Method |
Term-end paper.
60% or more is required. |
| Practical Experience |
|
| Summary of Practical Experience and Class Contents based on it |
|
| Message |
|
| Other |
|
Please fill in the class improvement questionnaire which is carried out on all classes.
Instructors will reflect on your feedback and utilize the information for improving their teaching. |