Course Information
SemesterCourse Unit CodeCourse Unit TitleT+P+LCreditNumber of ECTS Credits
1EEE570SELECTED TOP. ON POWER SYSTEMS3+0+036

Course Details
Language of Instruction English
Level of Course Unit Master's Degree
Department / Program ELECTRICAL AND ELECTRONICS ENGINEERING
Mode of Delivery Face to Face
Type of Course Unit Elective
Objectives of the Course The object of this course is to review steady-state ac circuit analysis, power calculations in single and three-phase systems, and balanced three-phase circuits. After these review, delta to wye and wye to delta transformation, one-line diagram representation of power systems, network calculations based on admittance model and bus admittance matrix, mutually coupled branches in bus admittance matrix, network incidence matrix, Gaussian elimination, Kron reduction, triangular factorization, network calculations based on impedance model and bus impedance matrix, modification of bus impedance matrix, and direct determination of bus impedance matrix subjects will be given in this course.
Course Content 1. Review of steady-state ac circuit analysis
2. Review of power calculations in single and three-phase systems
3. Review of balanced three-phase circuits
4. Delta to wye and wye to delta transformation
5. One-line diagram representation of power systems
6. Network calculations based on admittance model and bus admittance matrix
7. Mutually coupled branches in bus admittance matrix
8. The network incidence matrix
9. Gaussian elimination
10. Kron reduction
11. Triangular factorization
12. Network calculations based on impedance model and bus impedance matrix
13. Modification of bus impedance matrix
14. Direct determination of bus impedance matrix
Course Methods and Techniques
Prerequisites and co-requisities None
Course Coordinator None
Name of Lecturers Prof.Dr. Ahmet Mete Vural
Assistants None
Work Placement(s) No

Recommended or Required Reading
Resources Power System Analysis, John Grainger, William Stevenson
-

Course Category
Mathematics and Basic Sciences %60
Engineering %40
Engineering Design %0
Social Sciences %0
Education %0
Science %0
Health %0
Field %0

Planned Learning Activities and Teaching Methods
Activities are given in detail in the section of "Assessment Methods and Criteria" and "Workload Calculation"

Assessment Methods and Criteria
In-Term Studies Quantity Percentage
Mid-terms 2 % 60
Final examination 1 % 40
Total
3
% 100

 
ECTS Allocated Based on Student Workload
Activities Quantity Duration Total Work Load
Course Duration 14 3 42
Hours for off-the-c.r.stud 14 3 42
Presentation 6 12 72
Final examination 1 10 10
Total Work Load   Number of ECTS Credits 6 166

Course Learning Outcomes: Upon the successful completion of this course, students will be able to:
NoLearning Outcomes
1 To be able to perform current, voltage, and power calculations in three-phase power systems.
2 To be able to perform calculations related to coordinate transformations.
3 To know traditional transmission line compensation techniques and be able to perform related calculations.
4 To have basic knowledge about Flexible AC Transmission Systems (FACTS) devices.
5 To have knowledge about symmetrical faults and be able to perform related calculations.
6 To have knowledge about symmetrical components and sequence networks and be able to perform related calculations.
7 To have knowledge about asymmetrical faults and be able to perform related calculations.
8 To have basic knowledge about renewable energy sources.
9 To have basic knowledge about microgrids.
10 To have basic knowledge about high voltage direct current (HVDC) transmission systems.


Weekly Detailed Course Contents
WeekTopicsStudy MaterialsMaterials
1 1. Review of steady-state ac circuit analysis The related section from the lectures notes will be read Lecture notes
2 Review of power calculations in single and three-phase systems The related section from the lectures notes will be read Lecture notes
3 Review of balanced three-phase circuits The related section from the lectures notes will be read Lecture notes
4 Delta to wye and wye to delta transformation The related section from the lectures notes will be read Lecture notes
5 One-line diagram representation of power systems The related section from the lectures notes will be read Lecture notes
6 Network calculations based on admittance model and bus admittance matrix The related section from the lectures notes will be read Lecture notes
7 Network calculations based on admittance model and bus admittance matrix The related section from the lectures notes will be read Lecture notes
8 Mutually coupled branches in bus admittance matrix The related section from the lectures notes will be read Lecture notes
9 The network incidence matrix The related section from the lectures notes will be read Lecture notes
10 Gaussian elimination The related section from the lectures notes will be read Lecture notes
11 Kron reduction The related section from the lectures notes will be read Lecture notes
12 Triangular factorization The related section from the lectures notes will be read Lecture notes
13 Network calculations based on impedance model and bus impedance matrix The related section from the lectures notes will be read Lecture notes
14 Modification of bus impedance matrix and direct determination of bus impedance matrix The related section from the lectures notes will be read Lecture notes


Contribution of Learning Outcomes to Programme Outcomes
P1 P2 P3 P4
C1
C2
C3
C4
C5
C6
C7
C8
C9
C10

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https://obs.gantep.edu.tr/oibs/bologna/progCourseDetails.aspx?curCourse=147944&lang=en