| Academic Year |
2024Year |
School/Graduate School |
Graduate School of Advanced Science and Engineering (Master's Course) Division of Advanced Science and Engineering Transportation and Environmental Systems Program |
| Lecture Code |
WSJ20301 |
Subject Classification |
Specialized Education |
| Subject Name |
数値流体力学特論 |
Subject Name
(Katakana) |
スウチリュウタイリキガクトクロン |
Subject Name in
English |
Advanced Computational Fluid Dynamics |
| Instructor |
MUTSUDA HIDEMI |
Instructor
(Katakana) |
ムツダ ヒデミ |
| Campus |
Higashi-Hiroshima |
Semester/Term |
1st-Year, First Semester, 1Term |
| Days, Periods, and Classrooms |
(1T) Fri5-8 |
| Lesson Style |
Lecture |
Lesson Style
(More Details) |
|
| On-demand |
| Credits |
2.0 |
Class Hours/Week |
|
Language of Instruction |
E
:
English |
| Course Level |
6
:
Graduate Advanced
|
| Course Area(Area) |
25
:
Science and Technology |
| Course Area(Discipline) |
10
:
Integrated Engineering |
| Eligible Students |
|
| Keywords |
SDG_13,SDG_14,SDG_15, Computational Fluid Dynamics (CFD) , Grid based method, Particle based method, Navier-Stokes Equation, Turbulence model |
| 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 |
Computational Fluid Dynamics is the simulation of fluids engineering systems using modeling (mathematical physical problem formulation) and numerical methods (discretization methods, solvers, numerical parameters, and grid generations, etc.)
The result of CFD analyses is relevant engineering data used in Conceptual studies of new designs, detailed product development, troubleshooting and design.
Students will have a basic knowledge of the essential elements involved in CFD.
Students will have an introductory knowledge of methods used to solve nonlinear system of equations iteratively.
Students will be able to develop numerical algorithms for computing governing equations for fluid (Navier-Stokes).
Students will have a desire to understand further concepts in CFD, especially as concerns the modeling of systems of governing equations in naval architect, aerodynamics, vehicle, civil eng. and environmental eng. |
| Class Schedule |
Overview and Introduction for Computational Fluid Dynamics
Governing Equations for fluid and solid
Coordinate system and grid generation
Validation and Verification
Finite difference method, Finite volume method, temporal derivative, spatial derivative,
Solvers for Poisson equation (1) direct
Solvers for Poisson equation (2) iterative
Solving for N-S eq.(1)
Solving for N-S eq(2)
Turbulent model (1) DNS, RANS
Turbulent model (2) LES, DES
Multiphase model, Free surface model
Particle based method (1) SPH
Particle based method (2) MPS
Distinct Element method |
Text/Reference
Books,etc. |
Handouts in English (download from WEB site) |
PC or AV used in
Class,etc. |
|
| (More Details) |
Handouts in English (download from WEB site) |
| Learning techniques to be incorporated |
|
Suggestions on
Preparation and
Review |
2~15. : Students need to leaf through handouts before each lecture.
Furthermore, your programming skill in Fortran or C is necessary. |
| Requirements |
|
| Grading Method |
Report (80%), Attitude (20%) |
| Practical Experience |
|
| Summary of Practical Experience and Class Contents based on it |
|
| Message |
Math : Linear algebra, calculus, complex variables, ODE and PDE,
Physics : some understanding of incompressible and compressible fluid flow
Computing : Fortran and C
|
| 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. |