EE 462

Course ID:

Course Code & Number

EE 462

Course Title

Power System Analysis

Level

BS

Credit Hours/ ECTS Credits

(3+0+0) 3 TEDU Credits, 5 ECTS Credits

Year of Study:

Senior

Semester:

Spring

Type of Course:

Elective

Mode of Delivery:

Face-to-face

Language of Instruction:

English

Pre-requisite / Co-requisite::

Catalog Description

Structure and characteristics of electrical power systems. Smart grids. Renewable energy sources. Electrical modeling of transmission lines, transformers and generators. Representation of power systems. Bus admittance and bus impedance matrices. Load flow analysis. Symmetrical three-phase fault analysis.

Course Objectives

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.

Software Usage

MATLAB or GNU Octave

Course Learning Outcomes

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.

Learning Activities and Teaching Methods:

Telling/Explaining Discussion/Debate Questioning Reading Demonstrating Problem Solving Inquiry Collaborating Brainstorming Web Searching

Assessment Methods and Criteria:

Test / Exam Case Studies / Homework

Assessment Methods and Criteria Others:

Design Content

Recommended Reading

Grainger, J. J., Stevenson, W.D., & Chang, G.W. (2016). Power System Analysis (SI). 2nd Edition, McGraw Hill Publications.

Required Reading

Glover, J. D., Sarma, M. S., & Overbye, T. (2012). Power System Analysis & Design. 5th Edition. Cengage Learning.

Grading

Test/Exam (60%), Case Studies / Homework (40%)

Learning Activities and Teaching Methods Others:

Course Coordinator:

Ali Nezih Güven

Student Workload:

Workload	Hrs
Lectures	42
Course Readings	42
Exams/Quizzes	42
Case Study Analysis	24

Course & Program Learning Outcome Matching: