The aim of this unit is to instill confidence and understanding of those concepts of power system analysis that are likely to be encountered in the study and practice of electrical power engineering. The approach is to develop the thinking process of the student in reaching a sound understanding of a broad range of topics in the power-system area of electrical engineering. Calculation of unbalanced fault conditions, methods of symmetrical components, the admittance model and network calculations, the impedance model and network calculations, Thévenin's theorem, load flow solutions, the Gauss-Seidel method, the Newton-Raphson method, power flow studies in system design and operation, SKM Power Tools application for load flow analysis, fault calculation using the bus impedance matrix, the equal-area criterion for transient stability analysis, economic operation of power systems, unit commitment, state estimation of power systems, reliability analysis of power systems.
It is highly recommended for students to have a background in power systems..
|Unit name||Power Systems 2|
|College/School||College of Sciences and Engineering
School of Engineering
|Coordinator||Professor Michael Negnevitsky|
|Delivered By||University of Tasmania|
|Location||Study period||Attendance options||Available to|
- International students
- Domestic students
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|Study Period||Start date||Census date||WW date||End date|
* The Final WW Date is the final date from which you can withdraw from the unit without academic penalty, however you will still incur a financial liability (refer to How do I withdraw from a unit? for more information).
Unit census dates currently displaying for 2023 are indicative and subject to change. Finalised census dates for 2023 will be available from the 1st October 2022. Note census date cutoff is 11.59pm AEST (AEDT during October to March).
- Evaluate unbalanced short-circuit and open-circuit conditions.
- Perform load-flow analysis using admittance and impedance models of power systems.
- Analyse power security and reliability in power systems with increasing renewable generation and storage.
- Design power systems with increasing renewable generation using professional electrical engineering software.
- Communicate results of power system analysis through report writing and oral presentations
|Field of Education||Commencing Student Contribution 1,3||Grandfathered Student Contribution 1,3||Approved Pathway Course Student Contribution 2,3||Domestic Full Fee 4|
1 Please refer to more information on student contribution amounts.
2 Please refer to more information on eligibility and Approved Pathway courses.
3 Please refer to more information on eligibility for HECS-HELP.
4 Please refer to more information on eligibility for FEE-HELP.
Please note: international students should refer to What is an indicative Fee? to get an indicative course cost.
PrerequisitesENG767 Power Systems 1
|Assessment||Examination - invigilated (centrally) (20%)|Project (60%)|Laboratory/practical (20%)|
|Timetable||View the lecture timetable | View the full unit timetable|
Required readings will be listed in the unit outline prior to the start of classes.
|Links||Booktopia textbook finder|
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