| 1. | Course Title | Advanced Energy Storage Technologies | |||||||||||
| 2. | Code | 4ФЕИТ02018 | |||||||||||
| 3. | Study program | 1-OIE | |||||||||||
| 4. | Organizer of the study program (unit, institute, department) | Faculty of Electrical Engineering and Information Technologies | |||||||||||
| 5. | Degree (first, second, third cycle) | Second cycle | |||||||||||
| 6. | Academic year/semester | I/1 | 7. | Number of ECTS credits | 6.00 | ||||||||
| 8. | Lecturer | Dr Maja Celeska Krstevska | |||||||||||
| 9. | Course Prerequisites | ||||||||||||
| 10. | Course Goals (acquired competencies):
The student should be able to define and select an energy storage system suitable for a renewable energy system. To be able to combine different energy storage systems in a microgrid in order to improve its characteristics. |
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| 11. | Course Syllabus:
Defining the need for energy storage systems when using renewable energy sources. Theoretical principles for storage systems in terms of their dynamic characteristics and efficiency. Presentation and analysis of the latest trends in energy storage methods. Modeling of supercapacitors and batteries. Modeling of fuel cells and electrolyzer – hydrogen generator. Determination of energy flows in a microgrid between sources and several different energy storage systems. Analysis of ways to achieve maximum power, efficiency and availability of the storage system. |
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| 12. | Learning methods:
Presentations, interactive lectures, independent project tasks |
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| 13. | Total number of course hours | 180 | |||||||||||
| 14. | Distribution of course hours | 3 + 3 | |||||||||||
| 15. | Forms of teaching | 15.1 | Lectures-theoretical teaching | 45 hours | |||||||||
| 15.2 | Exercises (laboratory, practice classes), seminars, teamwork | 45 hours | |||||||||||
| 16. | Other course activities | 16.1 | Projects, seminar papers | 30 hours | |||||||||
| 16.2 | Individual tasks | 30 hours | |||||||||||
| 16.3 | Homework and self-learning | 30 hours | |||||||||||
| 17. | Grading | ||||||||||||
| 17.1 | Exams | points | |||||||||||
| 17.2 | Seminar work/project (presentation: written and oral) | 50 points | |||||||||||
| 17.3. | Activity and participation | points | |||||||||||
| 17.4. | Final exam | 50 points | |||||||||||
| 18. | Grading criteria (points) | up to 50 points | 5 (five) (F) | ||||||||||
| from 51 to 60 points | 6 (six) (E) | ||||||||||||
| from 61 to 70 points | 7 (seven) (D) | ||||||||||||
| from 71 to 80 points | 8 (eight) (C) | ||||||||||||
| from 81 to 90 points | 9 (nine) (B) | ||||||||||||
| from 91 to 100 points | 10 (ten) (A) | ||||||||||||
| 19. | Conditions for acquiring teacher’s signature and for taking final exam | Successfully finished 60% from all pre-exam activities | |||||||||||
| 20. | Forms of assessment | ||||||||||||
| 21. | Language | Macedonian and English | |||||||||||
| 22. | Method of monitoring of teaching quality | ||||||||||||
| 23. | Literature | ||||||||||||
| 23.1. | Required Literature | ||||||||||||
| No. | Author | Title | Publisher | Year | |||||||||
| 1. | Fu-Bao Wu, Bo Yang and Ji-Lei Ye | Grid-scale Energy Storage Systems and Applications | Elsevier Inc. | 2020 | |||||||||
| 2. | David Wenzhong | Energy Storage for Sustainable Microgrid | Elsevier Inc. | 2015 | |||||||||
| 3. | Dr. Prabhansu, Nayan Kumar | Emerging Trends in Energy Storage Systems and Industrial Applications | Elsevier Inc. | 2022 | |||||||||
