SylabUZ
Nazwa przedmiotu | Distributed energy sources and electric transport |
Kod przedmiotu | 06.2-WE-ELEKTP-DESandET-Er |
Wydział | Wydział Informatyki, Elektrotechniki i Automatyki |
Kierunek | WIEiA - oferta ERASMUS / Elektrotechnika |
Profil | - |
Rodzaj studiów | Program Erasmus pierwszego stopnia |
Semestr rozpoczęcia | semestr zimowy 2018/2019 |
Semestr | 5 |
Liczba punktów ECTS do zdobycia | 5 |
Typ przedmiotu | obieralny |
Język nauczania | angielski |
Sylabus opracował |
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Forma zajęć | Liczba godzin w semestrze (stacjonarne) | Liczba godzin w tygodniu (stacjonarne) | Liczba godzin w semestrze (niestacjonarne) | Liczba godzin w tygodniu (niestacjonarne) | Forma zaliczenia |
Wykład | 30 | 2 | - | - | Zaliczenie na ocenę |
Laboratorium | 15 | 1 | - | - | Zaliczenie na ocenę |
Ćwiczenia | 15 | 1 | - | - | Zaliczenie na ocenę |
Projekt | 15 | 1 | - | - | Zaliczenie na ocenę |
To provide fundamental knowledge in subject of distributed energy sources and electric transport.
Circuit theory, Fundamentals of electrical power engineering.
Wind energy. Wind conditions In Poland and Europe. Wind conversion system. Ecological, scenery and environmental results of the wind installations utilization.
Solar energy. Insolation in Poland. Types and construction of the solar systems. Principle of operation.
Examples of the industrial installations with photovoltaic.
Water energy. Turbine construction. Influence of the large water power stations into environmental changes. Principles of constructions as well as cooperation of the small water power stations with the energy network.
Geothermal energy. Methods and examples of utilization of the geothermal energy. Geothermal energy resources in Poland. Principle of operation of the heat pumps, heat
sources utilized In heat pumps.
Electrical arrangements In alternative energy sources. Methods of solar energy conversion into electrical energy. Arrangements to cooperation with AC networks.
Electrolysis and hydrogen utilization. Thermonuclear fusion. Financial aspects of the alternative energy installations.
Battery, hybrid and hydrogene vehicles. Types of batteries, types of hybrid drives, fuel cells, electrolizers parameters. Charging infrastructure.
Lecture, laboratory exercises, project, table exercises.
Opis efektu | Symbole efektów | Metody weryfikacji | Forma zajęć |
Lecture – the main condition to get a pass are sufficient marks for all exercises and tests conducted during the semester.
Excercises – the main condition to get a pass are sufficient marks for all exercises conducted during the semester.
Laboratory – the main condition to get a pass is acquiring sufficient marks for all laboratory exercises as scheduled.
Project – the main condition to get a pass is acquiring sufficient marks for all projects.
1. Klugmann E., Klugmann-Radziemska E.: Alternative energy sources. Photovoltaics power systems, Wydawnictwo Ekonomia i Środowisko, Białystok, 1999. (in Polish)
2. Heier S., Waddington R.: Grid integration of wind energy conversion systems, John Wiley & Sons, 2006.
3. Luque A.: Handbook of photovoltaic science and engineering, John Wiley & Sons, 2003.
4. Lewandowski W.: Ecological friendly renewable energy sources, WNT, Warszawa, 2001. (in Polish)
5. Marecki J.: Basic of energy transformations, WNT, Warszawa, 1995. (in Polish).
1. O'Hayre R.: Fuel cell fundamentals, John Wiley & Sons, 2006.
2. Mielczarski W., Electrical energy market – selected technical and economical aspects, ARE & EP-C, Warszawa, 2000 (in Polish)
Zmodyfikowane przez prof. dr hab. inż. Grzegorz Benysek (ostatnia modyfikacja: 20-03-2018 11:37)