| 1. Course Title | Computer Methods for Power Systems Analysis | |||||||
| 2. Code | 4ФЕИТ09Л011 | |||||||
| 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/6 | 7. Number of ECTS credits | 6 | |||||
| 8. Lecturer | D-r Rubin Taleski | |||||||
| 9. Course Prerequisites | Passed: Power Networks Taken course: High Voltage Transmission Networks and Systems |
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| 10. Course Goals (acquired competencies): Introduction to methods for power for steady state power system analysis. Creation of computer programs and analysis of power system using software packages. | ||||||||
| 11. Course Syllabus: Introduction. Basic equations of three-phase branches and systems. Power system matrices. General methods for AC loadflow. DC loadflow method. Transformation matrices. Calculation of short circuit currents. | ||||||||
| 12. Learning methods: Lectures and auditory exercises with presentations and simulations, teacher-student interaction, homework, and projects. | ||||||||
| 13. Total number of course hours | 3 + 1 + 1 + 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 | 0 | ||||||
| 17.2. Seminar work/project (presentation: written and oral) | 20 | |||||||
| 17.3. Activity and participation | 5 | |||||||
| 17.4. Final exam | 75 | |||||||
| 18. Grading criteria (points) | up to 54 points | 5 (five) (F) | ||||||
| from 55to 63 points | 6 (six) (E) | |||||||
| from 64to 71 points | 7 (seven) (D) | |||||||
| from 72to 80 points | 8 (eight) (C) | |||||||
| from 81to 91 points | 9 (nine) (B) | |||||||
| from 92to 100 points | 10 (ten) (A) | |||||||
| 19. Conditions for acquiring teacher’s signature and for taking final exam | Class attendance (min 80%), and submitted 6 project and 5 homework assignments with average mark of min. 60% | |||||||
| 20. Forms of assessment | Written exam Tow mid/end-term exams (120 min each), or final exam (180 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. During the exams it is not allowed to use any literature in printed or electronic form. Calculators are allowed, but not mobile phones, tablets or similar electronic devices. |
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| 21. Language | Macedonian and English | |||||||
| 22. Method of monitoring of teaching quality | Internal evaluation and surveys | |||||||
| 23. Literature | ||||||||
| 23.1. Required Literature | ||||||||
| No. | Author | Title | Publisher | Year | ||||
| 1 | D. Rajičić, R. Taleski | Computer Methods for Power Systems Analysis | Faculty of EE Skopje | 1996 | ||||
| 23.2. Additional Literature | ||||||||
| No. | Author | Title | Publisher | Year | ||||
| 1 | J. Grainger & W. D. Stevenson Jr | Power System Analysis | McGraw Hill | 1994 | ||||
| 2 | Göran Andersson | Modelling and Analysis of Electric Power Systems | ETH Zürich | 2012 | ||||
