SEE309 - Power Systems Protection and Relaying
|Year||2016 unit information|
|Enrolment modes:||Trimester 1: Waurn Ponds (Geelong), Cloud (online)|
1 hour class per week, 2 hours of laboratory and project work per week. Compulsory campus attendance requirement for all students either at scheduled sessions on multiple days during the trimester or on a single scheduled day during the intensive trimester week. Typically Waurn Ponds (Geelong) enrolled students will attend the compulsory activities for this unit at scheduled sessions on multiple days during the trimester and Cloud (online) enrolled students will attend the compulsory activities for this unit on a single scheduled day during the trimester intensive week.
This unit covers the design and operation of electrical energy protection systems for the generation, transmission and distribution systems of electrical energy. It covers principles and types of protection systems; application of protection to generators, motors, transmission lines, transformers, busbars, and distribution; lightning impact on transmission and distribution networks; electrical studies for design of protection systems; and power system communications for protection application.
Topic tests 30%, laboratory report 30%, examination 40%. To be eligible to obtain a pass in this unit, students must achieve an overall mark of at least 40% in the examination and compulsory attendance is required by all students to unit-specific activities at Waurn Ponds (Geelong). These unit-specific activities may be undertaken either at scheduled sessions on multiple days during the trimester or during a single day of unit-specific activities scheduled during the trimester intensive week.
Unit Fee Information
All Commonwealth Supported Place (CSP), fee paying undergraduate and pre-2016 commencing students
Unit fee information available soon
2016 commencing International and full fee paying postgraduate domestic students
You can calculate the cost of each unit by using the following calculation:
Course fee x unit EFTSL value = unit price