SylabUZ
Course name | Transmission and distribution of the electrical energy |
Course ID | 06.2-WE-ELEKTP-TaDoftheEE-Er |
Faculty | Faculty of Computer Science, Electrical Engineering and Automatics |
Field of study | Electrical Engineering |
Education profile | academic |
Level of studies | First-cycle Erasmus programme |
Beginning semester | winter term 2021/2022 |
Semester | 5 |
ECTS credits to win | 5 |
Course type | optional |
Teaching language | english |
Author of syllabus |
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The class form | Hours per semester (full-time) | Hours per week (full-time) | Hours per semester (part-time) | Hours per week (part-time) | Form of assignment |
Lecture | 30 | 2 | - | - | Credit with grade |
Laboratory | 15 | 1 | - | - | Credit with grade |
Class | 30 | 2 | - | - | Credit with grade |
To provide fundamental knowledge in subject of transmission and distribution of the electrical energy.
Circuit theory, Fundamentals of electrical power engineering
General information about electrical power system. Network structure. Construction of the power network elements. Overhead power line, construction of the conductors, mechanics of the conductors, insulators and equipment, supporting constructions, groundings. Cable lines, basic information, construction of the cable power lines.
Power stations. Significance of the power stations in electrical power system. Single, double and triple busses systems, switchgears, systems with more than one circuit breaker,
overhead switchgears.
Basic calculations in electrical power engineering. Voltage drops, power and energy losses, symmetrical short circuits. Electrical energy consumption prediction. Characteristics of the electrical loads. Power and energy demands. Methods of power and electrical energy prediction. Qualitative and quantitative predictions methods.
Lecture, laboratory, table exercises.
Outcome description | Outcome symbols | Methods of verification | The class form |
Lecture – the main condition to get a pass are sufficient marks for all exercises and tests conducted during the semester.
Class – the main condition to get a pass are sufficient marks for all exercises and tests conducted during the semester.
Laboratory – the main condition to get a pass is acquiring sufficient marks for all laboratory exercises as scheduled.
1. Kahl T., Power networks, WNT, Warszawa, 1981 (in Polish)
2. Popczyk J., śmuda K., Power networks, Politechnika Śląska, Gliwice, 1991 (In Polish)
3. Arrillaga J., Watson N., Power system harmonics, John Wiley & Sons, 2003
4. Machowski J. et all., Power system dynamics and stability, John Wiley & Sons, 1997
1. Polskie Sieci Elektroenergetyczne, Balance market regulations, Warszawa, 2001 (In Polish)
2. Mielczarski W., Electrical energy market – selected technical and economical aspects, ARE & EP-C, Warszawa, 2000 (in Polish)
Modified by dr hab. inż. Paweł Szcześniak, prof. UZ (last modification: 08-07-2021 21:49)