autumn 2024
ELE-3613 Electromagnetic analysis in engineering - 5 ECTS
Type of course
This course covers the fundamentals concepts of electromagnetic principles and their applications in electrical power engineering. The course can be taken as a single course. Students belonging to Master in Electrical Engineering are prioritized, while other students can sign up provided available laboratory and lecturer capacity.Course content
Electrostatics
- Electrostatic fields in high voltage technology.
- Electrostatic fields in insulating materials.
- The concept of resistance and capacitance.
- Electrostatic boundary-value problems.
Magnetostatics
- Magnetostatics fields in permanent magnets and current-currying wires.
- Magnetostatics fields in materials, hysteresis, and eddy currents.
- The concept of inductor and inductance.
- Magnetic energy, circuits, and forces.
Maxwell’s Equations
- Dynamic magnetic fields and electromotive force.
- The concept of electric transformers and motors.
- Maxwell' equations in differential and integration form.
- Time-harmonic fields.
Electromagnetic Wave Propagation
- Wave propagation in dielectric.
- Plane wave in good conductor.
- Skin effect and proximity effect.
- Power and the Poynting's theorem.
Transmission line theory
- Coaxial cables, a two-wire lines, and a parallel plate.
- Transmission line equations.
- Transient analysis of transmission lines.
- Lightning and voltage surges.
Objectives of the course
Knowledge
By the end of this course, students should build the knowledge on:
- Maxwell's equations and their implications in static and dynamic fields.
- The operational principles of transformers and inductors.
- The applications of Lorentz force in electric machines.
- Electromagnetic interference and the coupling mechanisms.
Skills:
- Analyze and solve various problems involving electromagnetic fields and their effects in electrical systems.
- Using computational tools and software for electromagnetic analysis.
- Identify electromagnetic phenomena related to practical problems.
Competences:
- Apply theoretical knowledge of electromagnetism to practical scenarios in power engineering, enhancing system design and functionality.
- Evaluate electromagnetic systems, identifying potential improvements or foreseeing possible challenges.
- Conduct research and development in electromagnetic applications.
Schedule
Examination
Examination: | Date: | Duration: | Grade scale: |
---|---|---|---|
School exam | 16.12.2024 09:00 |
3 Hours | A–E, fail F |
Coursework requirements:To take an examination, the student must have passed the following coursework requirements: |
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Assignments | Approved – not approved | ||
Semester project | Approved – not approved |
- About the course
- Campus: Narvik |
- ECTS: 5
- Course code: ELE-3613
- Responsible unit
- Department of Electrical Engineering
- Earlier years and semesters for this topic