Information Package / Course Catalogue
Power System Dynamics Stability and Control
Course Code: EEE652
Course Type: Area Elective
Couse Group: Third Cycle (Doctorate Degree)
Education Language: English
Work Placement: N/A
Theory: 3
Prt.: 0
Credit: 3
Lab: 0
ECTS: 8
Objectives of the Course

This course provides an overview of the power engineering tools of dynamic modelling, stability analysis and control design.

Course Content

Power system structure and its components, The power system in the steady-state, Electromagnetic phenomena, A background in stability concepts, Electromechanical dynamics under small disturbances, Electromechanical dynamics under large disturbances, Voltage stability, Frequency variations, Stability enhancement methods.

Name of Lecturer(s)
Learning Outcomes
1.Identify and classify the dynamics of power systems and stability problems and determine the power system components and their effects
2.Determine the transient state dynamics, identify the electromagnetic phenomena, select and analyze the appropriate mathematical models
3.Model and analyze the electromechanical dynamics under small and large disturbances and calculate the effects of system components
4.Determine the factors affecting voltage stability, calculate the critical load demand, and determine the contingencies causing voltage collapse.
5.Identify and design power system stability enhancement methods
Recommended or Required Reading
1.P. Kundur (1994). Power System Stability and Control. McGraw-Hill Education.
2.A. Kumar Singh & B. Pal (2018). Dynamic Estimation and Control of Power Systems. Elsevier Science.
3.P. W. Sauer & M. A. Pai (1998). Power System Dynamics and Stability. Prentice Hall.
Weekly Detailed Course Contents
Week 1 - Theoretical
Introduction, Power System Structure and Its Components
Week 2 - Theoretical
The power system in the steady-state
Week 3 - Theoretical
The power system in the steady-state
Week 4 - Theoretical
Electromagnetic phenomena
Week 5 - Theoretical
A background in stability concepts
Week 6 - Theoretical
Electromechanical dynamics under small disturbances
Week 7 - Theoretical
Electromechanical dynamics under small disturbances
Week 8 - Theoretical
Repeat chapters - Midterm Exam
Week 9 - Theoretical
Electromechanical dynamics under large disturbances
Week 10 - Theoretical
Electromechanical dynamics under large disturbances
Week 11 - Theoretical
Voltage stability
Week 12 - Theoretical
Voltage stability
Week 13 - Theoretical
Frequency variations
Week 14 - Theoretical
Stability enhancement methods.
Assessment Methods and Criteria
Type of AssessmentCountPercent
Attending Lectures1%5
Assignment1%20
Project1%70
Quiz1%5
Workload Calculation
ActivitiesCountPreparationTimeTotal Work Load (hours)
Lecture - Theory1473140
Assignment110313
Project133336
Quiz1819
TOTAL WORKLOAD (hours)198
Contribution of Learning Outcomes to Programme Outcomes
PÇ-1
PÇ-2
PÇ-3
PÇ-4
PÇ-5
PÇ-6
PÇ-7
PÇ-8
PÇ-9
PÇ-10
PÇ-11
PÇ-12
OÇ-1
5
4
4
5
5
4
4
3
5
5
4
4
OÇ-2
4
4
5
5
4
4
5
5
4
4
5
5
OÇ-3
5
4
3
5
4
5
4
4
5
4
5
4
OÇ-4
5
4
5
5
5
4
4
4
5
5
5
5
OÇ-5
4
4
4
5
5
5
4
5
3
4
5
5
Adnan Menderes University - Information Package / Course Catalogue
2026