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Course Unit Title | Course Unit Code | Type of Course Unit | Level of Course Unit | Year of Study | Semester | ECTS Credits |
---|---|---|---|---|---|---|
Renewable Energy Technology | TEM235 | Elective | Bachelor's degree | 2 | Fall | 4 |
Associate Prof. Dr. Özcan ATLAM
1) Knowledge of photovoltaic (PV) principles. Capable of making analysis and planning related to these topics.
2) Capable of performance analysis and technical planning in applications of electric production with wind turbine.
3) Knowledge of energy conversion mechanisms for water powered electric topics and ability of required technical calculations.
4) Capable of making technical calculations and planning for thermoelectric devices.
5) Knowledge of hydrogen systems with renewable energy.
6) Planning hybrid systems with assisted by renewable energies.
Program Competencies | |||||||||||||||||||||||||||||||
1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | 17 | 18 | 19 | 20 | 21 | 22 | 23 | 24 | 25 | 26 | 27 | 28 | 29 | 30 | ||
Learning Outcomes | |||||||||||||||||||||||||||||||
1 | High | High | High | Low | No relation | No relation | High | Low | High | Low | High | High | Middle | High | Low | No relation | Low | Low | Low | High | High | High | No relation | High | High | Low | No relation | No relation | No relation | No relation | |
2 | High | High | High | Low | No relation | No relation | High | No relation | High | Low | High | High | Middle | High | Low | No relation | Low | Low | Low | High | High | High | No relation | High | High | Low | No relation | No relation | No relation | No relation | |
3 | High | High | High | Low | No relation | No relation | High | Low | High | High | Middle | High | Low | No relation | Low | Low | Low | High | High | High | No relation | High | High | Low | No relation | No relation | No relation | No relation | No relation | No relation | |
4 | High | High | High | No relation | No relation | No relation | High | High | High | No relation | High | High | High | High | No relation | No relation | No relation | No relation | No relation | High | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | |
5 | High | High | High | No relation | No relation | No relation | High | High | High | No relation | High | High | High | High | No relation | No relation | No relation | No relation | No relation | High | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | |
6 | High | High | High | No relation | No relation | No relation | High | High | High | No relation | High | High | High | High | No relation | No relation | No relation | No relation | No relation | High | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation | No relation |
Face to Face
None
Energy Systems I-II
Operating principles of photovoltaic (PV) cells/modules. Electrical performance characteristics of the PV modules. Analysis and planning for PV systems. Electric generation by wind turbines. Analysis and planning for wind generator systems. Electric production systems based on water power. Hydroelectric dam and river powered systems. Electric generation via sea water ( tidal, wave energy systems). Thermo-electric devices (Peltiers). Electrolysis and electric via hydrogen fuel cells. Hybrid systems. Sample analyzies and demostrations. *Based on the educational principle of learning by doing and experiencing, realazing this course is better in the laboratory environment class where theory, observation and experiment are combined.
Contribution of Midterm Examination to Course Grade |
50% |
---|---|
Contribution of Final Examination to Course Grade |
50% |
Total |
100% |
Turkish
Not Required