EEE475 HIGH VOLTAGE TECHNIQUES I

Course Code:3560475
METU Credit (Theoretical-Laboratory hours/week):4 (3.00 - 2.00)
ECTS Credit:7.0
Department:Electrical and Electronics Engineering
Language of Instruction:English
Level of Study:Undergraduate
Course Coordinator:Prof.Dr. MURAT FAHRİOĞLU
Offered Semester:Fall and Spring Semesters.

Course Objectives

Field analysis: experimental and numerical (finite difference, finite element and charge simulation) methods and applications. Electrical breakdown in gases: ionization processes. Townsend s breakdown criterion, Paschens Law, bread-down in electronegative gases, time lags. Streamer-Kanal mechanism, breakdown in non-uniform field and corona. Electrical break-down of liquids: breakdown mechanism of pure and commercial liquids. Electrical breakdown of solids: Intrinsic, electromechanical, thermal and erosion mechanism. Insulating materials: dielectric gases; insulating oils and solid dielectrics.


Course Content

Field analysis: experimental and numerical (finite difference, finite element and charge simulation) methods and applications. Electrical breakdown in gases: ionization processes. Townsend s breakdown criterion, Paschens Law, bread-down in electronegative gases, time lags. Streamer-Kanal mechanism, breakdown in non-uniform field and corona. Electrical break-down of liquids: breakdown mechanism of pure and commercial liquids. Electrical breakdown of solids: Intrinsic, electromechanical, thermal and erosion mechanism. Insulating materials: dielectric gases; insulating oils and solid dielectrics.


Course Learning Outcomes

Learn physical causing electrical breakdown of different insulating mediums - Get acquaintance with insulating materials used in high voltage applications and their testing - Developing the skill and thinking abilities related to the assessment of insulation performance of high voltage systems - Get familiar with the operation and use of high voltage equipments - Circuit design concept for high voltage tests


Program Outcomes Matrix

Level of Contribution
#Program Outcomes0123
1Ability to use mathematics, engineering theory and fundamentals of engineering in solving engineering related problems
2An ability to design and analyze Electrical and Electronic systems
3Ability to reach the required information and use that information effectively to solve engineering problems
4Successfully adapt to evolving technologies and stay current with their professions,
5An ability to function and communicate well in multidisciplinary teams

0: No Contribution 1: Little Contribution 2: Partial Contribution 3: Full Contribution