The course focuses on the fundamental models and methods utilized in power system analysis. The generality of these models and methods makes them equally applicable to the analysis of small-scale industrial power systems, local distribution grids, and national transmission systems.
MATLAB or GNU Octave
Upon successfully completed this course, students will be able to:
(1) Identify the models used for the representation of power system equipment, such as transformers, transmission lines, and generators,
(2) Understand analysis methods used for load flow and short circuit calculations,
(3) Implement load flow and short circuit analyses using proper equipment models and methods,
(4) Analyze the results obtained from calculations,
(5) Use analysis results for proper selection of equipment and systems,
(6) Design power systems in line with given technical requirements.
Grainger, J. J., Stevenson, W.D., & Chang, G.W. (2016). Power System Analysis (SI). 2nd Edition, McGraw Hill Publications.
Glover, J. D., Sarma, M. S., & Overbye, T. (2012). Power System Analysis & Design. 5th Edition. Cengage Learning.
Test/Exam (60%), Case Studies / Homework (40%)
Workload | Hrs |
---|---|
Lectures | 42 |
Course Readings | 42 |
Exams/Quizzes | 42 |
Case Study Analysis | 24 |