Electromechanical Energy Conversion
Energy Systems Engineering
Faculty of Technology
First Cycle (Bachelor's Degree)
| Course Unit Title | Course Unit Code | Type of Course Unit | Level of Course Unit | Year of Study | Semester | ECTS Credits |
|---|---|---|---|---|---|---|
| Electromechanical Energy Conversion | TEM313 | Compulsory | Bachelor's degree | 3 | Fall | 3 |
Name of Lecturer(s)
Assistant Prof. Dr. Kadir YILMAZ
Learning Outcomes of the Course Unit
1) Analytically explains why transformers are used in the transmission line.
2) It calculates the losses in the transformers and extracts the equivalent circuit.
3) Determines the equivalent circuit parameters of transformers.
4) Calculate regulation and efficiency in transformers.
5) Extracts and types of DC machines.
6) Makes power-moment calculations of DC machines. Calculates the efficiency.
Program Competencies-Learning Outcomes Relation
| 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 | Middle | Middle | Middle | Low | Low | Low | Low | No relation | Low | No relation | No relation | No relation | Middle | Low | No relation | Low | No relation | No relation | No relation | Low | No relation | Low | No relation | Middle | Low | Low | Low | Middle | Middle | Low | |
| 2 | Middle | High | High | Low | Low | Low | Low | No relation | Low | No relation | No relation | No relation | Low | Low | Middle | High | No relation | No relation | No relation | Low | No relation | Low | No relation | Middle | Low | Low | Low | Middle | Middle | Low | |
| 3 | High | Middle | Middle | Low | Low | Low | Low | No relation | Low | No relation | No relation | No relation | Low | Low | Middle | High | No relation | No relation | Low | Low | No relation | Low | No relation | Middle | Low | Low | Low | Middle | Middle | Low | |
| 4 | Middle | High | Middle | No relation | Low | Low | Low | No relation | Low | No relation | No relation | No relation | Low | Low | Middle | Middle | No relation | Low | Middle | High | No relation | Low | No relation | Middle | Low | Low | Low | Middle | Middle | Low | |
| 5 | High | Middle | Middle | No relation | Low | Low | Low | No relation | Low | No relation | Low | No relation | Low | Low | Middle | Middle | Low | Middle | Middle | High | High | Low | No relation | Middle | Low | Low | Low | Middle | Middle | Low | |
| 6 | Middle | High | Middle | No relation | Low | Low | Low | No relation | Low | No relation | Low | No relation | Low | Low | Middle | Middle | Low | Low | Low | Middle | High | Low | Low | High | Low | Low | Low | Middle | Middle | Low | |
Mode of Delivery
Face to Face
Prerequisites and Co-Requisites
None
Recommended Optional Programme Components
Not Required
Course Contents
Giving information on ferromagnetic material acteristics and losses used in manufacturing electric machinery, transformer types used widely in industry, determination of equivalent electrical circuit parameters, obtaining load acteristics, calculation of efficiency and voltage regulation. Electromechanical energy conversion, field energy, co-energy, force, torque, D.C. machines, magnetization, excitation methods, generator and motor operation, capacity and efficiency calculation.
Weekly Schedule
1) Sources of magnetic field generation, Faradays law of induction, stored energy in magnetic circuits2) Transformer types, transformation of electric circuit components, equivalent circuit of transformers, phasor diagram of transformers
3) Transformer types, transformation of electric circuit components, equivalent circuit of transformers, phasor diagram of transformers
4) Voltage regulation in transformers, determination of maximum efficiency point in transformers, obtaining simplified equivalent circuit of transformers and comparison with real equivalent circuit
5) Voltage regulation in transformers, determination of maximum efficiency point in transformers, obtaining simplified equivalent circuit of transformers and comparison with real equivalent circuit
6) Determination of equivalent circuit parameters of transformer, short circuit and open circuit operation tests
7) Determination of equivalent circuit parameters of transformer, short circuit and open circuit operation tests
8) Determination of transformer winding polarity, parallel connection of transformers
9) Midterm
10) DC machines, voltage and torque, magnetisation, excitation methods, generator and motor operation
11) Direct current generators, mechanical construction, armatüre windings
12) Armature reaction, direct current generator types and acteristic curves
13) Operation principles of direct current motors, starting methods of DC machines
14) Operation principles of direct current motors, starting methods of DC machines
15) Direct current motor types and characteristics
16) Final Exam
Recommended or Required Reading
Planned Learning Activities and Teaching Methods
1) Lecture
2) Discussion
3) Demonstration
4) Group Study
5) Brain Storming
6) Lab / Workshop
7) Self Study
8) Problem Solving
Assessment Methods and Criteria
Contribution of Semester Studies to Course Grade |
40% |
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Contribution of Final Examination to Course Grade |
60% |
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Total | 100% | |||||||||||
Language of Instruction
Turkish
Work Placement(s)
Not Required