| Course Unit Title | Course Unit Code | Type of Course Unit | Level of Course Unit | Year of Study | Semester | ECTS Credits |
|---|---|---|---|---|---|---|
| Energy Storage Systems | AEK208 | Compulsory | Associate degree | 2 | Spring | 3 |
Name of Lecturer(s)
Associate Prof. Dr. Ersoy KELEBEKLER
Assistant Prof. Dr. Kadriye ESEN ERDEN
Learning Outcomes of the Course Unit
1) Explain energy storage systems
2) Categorize battery technologies and applications.
3) Explain ultrapapacities
4) Explain flywheel technologies
5) Explain hydrogen and other synthetic fuels
6) Defines fuel cell and its applications in vehicles
7) Explain the environmental effects of energy storage.
Program Competencies-Learning Outcomes Relation
| Program Competencies | |||||||||||
| 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | ||
| Learning Outcomes | |||||||||||
| 1 | Middle | High | Low | Low | High | High | Middle | Low | Low | High | |
| 2 | High | High | Low | Middle | High | High | Middle | No relation | Low | High | |
| 3 | Middle | High | No relation | Middle | Low | Middle | Low | Low | Low | High | |
| 4 | Low | Middle | Middle | No relation | No relation | High | No relation | Low | Low | High | |
| 5 | Middle | High | No relation | No relation | High | Middle | Low | Middle | Middle | High | |
| 6 | Middle | No relation | Middle | Middle | High | Middle | Middle | No relation | Middle | High | |
| 7 | High | No relation | Middle | No relation | Middle | No relation | High | Low | High | High | |
Mode of Delivery
Face to Face
Prerequisites and Co-Requisites
None
Recommended Optional Programme Components
N/A
Course Contents
The course contents energy storage systems, battery technologies (electrochemical batteries) and applications, energy and power density of batteries, ultrapacities, flywheel technologies, hydrogen and other synthetic fuels, fuel cells and applications, pumping hydro power systems, air compressor energy storage, superconducting magnetic energy storage; comparison of energy storage techniques; and environmental impacts of energy storage systems.
Weekly Schedule
1) Energy storage introduction2) The importance of energy storage
3) Classification of energy storage methods
4) Chemical energy storage methods, Hydrogen, synthetic gas storage
5) Electrical energy storage methods
6) Capacitors
7) Electrochemical energy storage methods
8) Midterm examination
9) Batteries, energy and power densities
10) Fuel cells and their applications
11) Mechanical energy storage methods
12) Pumped hydropower systems, air compressor energy storage
13) Flywheel technologies
14) Thermal energy storage methods
15) Environmental effects of energy storage systems
16) Semester final exam
Recommended or Required Reading
Planned Learning Activities and Teaching Methods
1) Lecture
2) Question-Answer
3) Discussion
4) Drill and Practice
5) Demonstration
6) Simulation
7) Self Study
8) Problem Solving
Assessment Methods and Criteria
Contribution of Midterm Examination to Course Grade |
40% |
|---|---|
Contribution of Final Examination to Course Grade |
60% |
Total |
100% |
Language of Instruction
Turkish
Work Placement(s)
Not Required