High Voltage Transmission Networks and Systems

Последна измена: March 29, 2023
1. Course Title High Voltage Transmission Networks and Systems
2. Code 4ФЕИТ09З002
3. Study program ЕЕС
4. Organizer of the study program (unit, institute, department) Faculty of Electrical Engineering and Information Technologies
5. Degree (first, second, third cycle) First cycle
6. Academic year/semester III/5 7. Number of ECTS credits 6
8. Lecturer D-r Mirko Todorovski
9. Course Prerequisites Passed: Fundamentals of Electrical Engineering, Fundamentals of Electric Circuits
Taken course: Power Networks
10. Course Goals (acquired competencies): Acquiring knowledge on models of long transmission lines treated as circuits with distributed parameters. Mastering the symmetric components method for short circuits calculation. Ability to solve problems in the area of static and transient stability by the equal area method, as well as by numerical solution of differential equations.
11. Course Syllabus: Introduction. Field of ​​study. Basic concepts. Transmission of electricity with long three-phase lines. Voltage and reactive power flow control: regulation transformers, reactive power injection and redistribution, U-Q characteristic of demand. Short circuits in power systems. Short circuits in general – types, causes and consequences. The waveform of the short circuit current, allowed simplifications. Symmetrical components, equivalent circuits, general relations. Matrix based analysis. Means and measures to limit short circuit currents. Stability of power systems – transient and dynamic. Electromechanical transients in general, concepts and definitions. Swing equation. Modeling. Angle power characteristics. Transient stability, method of small oscillations. Dynamic stability. Criterion of equal areas. Multimachine system. Measures to improve power system stability.
12. Learning methods: Lectures and recitations with presentations and simulations, teacher-student interaction, homework, projects.
13. Total number of course hours 3 + 2 + 0 + 0
14. Distribution of course hours 180
15. Forms of teaching 15.1. Lectures-theoretical teaching 45
15.2. Exercises (laboratory, practice classes), seminars, teamwork 30
16. Other course activities 16.1. Projects, seminar papers 30
16.2. Individual tasks 30
16.3. Homework and self-learning 45
17. Grading 17.1. Exams 20
17.2. Seminar work/project (presentation: written and oral) 20
17.3. Activity and participation 10
17.4. Final exam 50
18. Grading criteria (points) up to 50 points 5 (five) (F)
from 51to 60 points 6 (six) (E)
from 61to 70 points 7 (seven) (D)
from 71to 80 points 8 (eight) (C)
from 81to 90 points 9 (nine) (B)
from 91to 100 points 10 (ten) (A)
19. Conditions for acquiring teacher’s signature and for taking final exam Participation in lectures and recitations.
20. Forms of assessment Twо mid/end-term exams (120 min each), or final exam (120 min).
Student must complete and submit the required homework and project assignments, according to the schedule published at the course web site.
Final mark is determined from the weighted average of scores from exams, homework, and project assignments.
The use of books or notes of any kind, as well as a calculator, mobile phone, tablet or any other electronic device is allowed during the written exams.
21. Language Macedonian and English
22. Method of monitoring of teaching quality Internal evaluation and questionnaires.
23. Literature
23.1. Required Literature
No. Author Title Publisher Year
1 Р. Ачковски Високонапонски мрежи и системи ЕТФ-Скопје 1995
2 Р. Ачковски Преносни и дистрибутивни системи ЕТФ-Скопје 1995
3 Р. Ачковски Збирка задачи од областа на високонапонските мрежи и системи ФЕИТ – Скопје 2007
23.2. Additional Literature
No. Author Title Publisher Year
1 Д. Рајичиќ, Р. Талески Анализа на ЕЕС ЕТФ, Скопје 1996
2 Р. Ачковски, М. Тодо­ровски Збирка задачи од областа на преносните и дистрибутивни системи ФЕИТ – Скопје 2007