Difference between revisions of "CEM"
From Maxwell
(→Syllabus) |
|||
| Line 25: | Line 25: | ||
* [[Lecture 3.]] - Coupled Finite Element Method / Time-Dependent Magnetic Field | * [[Lecture 3.]] - Coupled Finite Element Method / Time-Dependent Magnetic Field | ||
* [[Lecture 3. - Assignment]] - Permanent Magnet Motor | * [[Lecture 3. - Assignment]] - Permanent Magnet Motor | ||
| − | * [[Lecture 4.]] - Integral Equations Based Methods / | + | * [[Lecture 4.]] - Integral Equations Based Methods / Wave equations |
* [[Lecture 4. - Assignment]] - Cable Harness Analysis | * [[Lecture 4. - Assignment]] - Cable Harness Analysis | ||
* <span style="color:red">'''[[Homework Assignment]] - Analysis of Solenoid Valve'''</span> | * <span style="color:red">'''[[Homework Assignment]] - Analysis of Solenoid Valve'''</span> | ||
Revision as of 15:04, 15 March 2019
|
Introduction to Computational Electromagnetics | |
|
Instructors
|
Teaching Assistants
|
Course Description
Introduction to fundamentals and techniques of finite element method and modelling in electromagnetics. The course includes: basics of electromagnetics, equations of static magnetic, electrostatic, eddy current and time-dependent problems, Helmholtz-equation, basic of finite element method, nodal and edge shape functions, boundary conditions, mesh operations. The course participants meet the following automotive examples in practice, fuel injection solenoid, induction heating, permanent magnet motor and an automobile cable harness analysis.
Syllabus
- Lecture 1. - Basics of Electromagnetics / Static Magnetic and Electrostatic Field
- Lecture 1. - Assignment - Fuel Injection Solenoid
- Lecture 2. - Basics of Finite Element Method / Time-Harmonic Magnetic Field
- Lecture 2. - Assignment - Induction Heating
- Lecture 3. - Coupled Finite Element Method / Time-Dependent Magnetic Field
- Lecture 3. - Assignment - Permanent Magnet Motor
- Lecture 4. - Integral Equations Based Methods / Wave equations
- Lecture 4. - Assignment - Cable Harness Analysis
- Homework Assignment - Analysis of Solenoid Valve
