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Syllabus ( ELEC 652 )


   Basic information
Course title: Reactive Power Compensation In Power Systems
Course code: ELEC 652
Lecturer: Assist. Prof. Tuba GÖZEL
ECTS credits: 7.5
GTU credits: 3 (3+0+0)
Year, Semester: 1/2, Fall and Spring
Level of course: Second Cycle (Master's)
Type of course: Area Elective
Language of instruction: Turkish
Mode of delivery: Face to face
Pre- and co-requisites: none
Professional practice: No
Purpose of the course: To provide abilties for understanding and analyzing the conventional and contemporary reactive power compensation systems under sinusoidal balanced and non sinusoidal unbalanced conditions
   Learning outcomes Up

Upon successful completion of this course, students will be able to:

   Contents Up
Week 1: Fundamental definitions electrical power and its components. General reactive power compensation devices under sinusoidal and balanced conditions.
Week 2: Definition of non sunisoidal and unbalanced conditions
Week 3: Power definitions and resolutions under non sinusoidal and unbalanced conditions
Week 4: Power definitions and resolutions under non sinusoidal and unbalanced conditions
Week 5: Recative power compensation devices under non sinusoidal and unbalanced conditions; passive and active filters (Working principals an circuit topologies)
Week 6: Passive filters
Week 7: Active compensation strategies
Week 8: Active compensation strategies
Week 9: Design of Steinmetz s compensator
Week 10: Modeling of non sinusoidal and unbalanced systems in Matlab-Simulink and ATPdraw-EMTP
Week 11: Modeling of non sinusoidal and unbalanced systems in Matlab-Simulink and ATPdraw-EMTP
Week 12: Modeling of non sinusoidal and unbalanced systems in Matlab-Simulink and ATPdraw-EMTP
Week 13: Modeling of non sinusoidal and unbalanced systems in Matlab-Simulink and ATPdraw-EMTP
Week 14: Modeling and analysis of reactive power compensations methods under non sinusoidal and unbalanced systems in Matlab-Simulink and ATPdraw-EMTP
Week 15*: Modeling and analysis of reactive power compensations methods under non sinusoidal and unbalanced systems in Matlab-Simulink and ATPdraw-EMTP
Week 16*: Final exam
Textbooks and materials: 1. Miller TJE (1982) Reactive power control in electric systems. Wiley-Interscience.
2. Shepherd W, Zand P (1979) Energy flow and power factor in nonsinusoidal circuits. Cambridge Univ. Press.
3. Akagi H, Watanabe EH, Aredes M (2007) Instantaneous power theory and applications to power conditioning. Wiley-IEEE Press.
Recommended readings: 1. IEEE Standard 1459-2010 (2010) Definitions for the measurement of electric power quantities under sinusoidal non-sinusoidal, balanced or unbalanced conditions. IEEE standards.
2. DIN 40110 (2002) Part 1: Single-phase cirsuits and Part 2: Polyphase circuits. DIN standards. (in German).
3. Fuchs EF, Masoum MAS (2008) Power quality in power systems and electrical machines. Elsevier Academic Press.
4. Literatürde yayınlanmış çeşitli makaleler.
  * Between 15th and 16th weeks is there a free week for students to prepare for final exam.
Assessment Up
Method of assessment Week number Weight (%)
Mid-terms: 0
Other in-term studies: 0
Project: 16 40
Homework: 0
Quiz: 0
Final exam: 16 60
  Total weight:
(%)
   Workload Up
Activity Duration (Hours per week) Total number of weeks Total hours in term
Courses (Face-to-face teaching): 3 15
Own studies outside class: 2 15
Practice, Recitation: 3 15
Homework: 0 0
Term project: 4 15
Term project presentation: 2 1
Quiz: 0 0
Own study for mid-term exam: 0 0
Mid-term: 0 0
Personal studies for final exam: 4 1
Final exam: 3 1
    Total workload:
    Total ECTS credits:
*
  * ECTS credit is calculated by dividing total workload by 25.
(1 ECTS = 25 work hours)
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