Politechnika
Warszawska

Katalog
ECTS

Nazwa przedmiotu:

Advanced Renewable Energy Sources

Koordynator przedmiotu:

prof. dr hab. inż. Roman Domański

Status przedmiotu:

Fakultatywny ograniczonego wyboru

Poziom kształcenia:

Studia II stopnia

Program:

Robotics

Grupa przedmiotów:

Przedmioty obieralne

Kod przedmiotu:

ANS534

Semestr nominalny:

3 / rok ak. 2020/2021

Liczba punktów ECTS:

3

Liczba godzin pracy studenta związanych z osiągnięciem efektów uczenia się:

1) Number of hours thatrequire the presence of a teacher - 47, including: a) attendanceat the lectures - 30hours; b) attendanceat the exercises- 15hours; c) consultancymeetings – 2 hours. 2) The number of hours of independent work of student: 10 hours for completion of homeworkproject.

Liczba punktów ECTS na zajęciach wymagających bezpośredniego udziału nauczycieli akademickich:

2 ECTS credits– number of hours that require the presence of a teacher – 47, including: a) attendanceat the lectures - 30hours; b) attendanceat the exercises – 15 hours; e) consultancymeetings – 2 hours.

Język prowadzenia zajęć:

angielski

Liczba punktów ECTS, którą student uzyskuje w ramach zajęć o charakterze praktycznym:

Formy zajęć i ich wymiar w semestrze:

• Wykład30h
• Ćwiczenia15h
• Laboratorium0h
• Projekt0h
• Lekcje komputerowe0h

Wymagania wstępne:

Knowledge of different energy sources and conversion methods. Knowledge of basic thermodynamics (Thermodynamics I or equivalent). Understanding of operating principles of essential types of energy conversion equipment: boilers, turbines, nuclear reactors, wind turbines, water turbines, photovoltaic cells.

Limit liczby studentów:

100

Cel przedmiotu:

Upon completion of the course students will have: • understanding of capabilities and limitations of individual renewable energy types and renewable energy sector as a whole, • ability to evaluate potential of renewable energy sources at a specific region, • ability to identify challenges related to integration of renewable energy sources in a larger energy system and propose potential solutions to these challenges, • basic understanding of direct and indirect costs related to renewable energy utilisation.

Treści kształcenia:

Lecture: • Basic terminology related to energy conversion processes. World’s energy resources (fossil fuel and nuclear)versus renewable energy sources. • The basic parameters for energy storage. • Energy conversionefficiency for selected processes and devices. Possibility of energy storage. • Renewable sources; sun as an energy source, conversion of solar radiation energy (collectors and photovoltaic systems). • Solarsystems for heating and hot water production. Biomass and biofuels – in energy and transportationsector. Solar power plants. Solar energy for heating and hot water generation. • Wind energy and windpower generation. • Energy of waters and oceans (tidal and wave energy conversion), OTEC. • Geothermy –geothermal systems, prospective hot dry rock technologies. Heat pump. Geothermy in Poland. • Hydrogen as an energy carrier, hydrogen production by renewables. • Examples of renewable energy conversionsystems for heat and power generation. Place for renewable in world energy scenario. • Prospectivepower generation technologies using the renewables. Typical solutions of waste utilisation used inpower engineering. • Rationalization of energy consumption, increase of energy conversion efficiencies. • Environmental footprint of renewable technologies. • Integration of renewable power generation systems with the grid. Exercises: • Calculations of actual cost of renewable electricity generation. • Calculations of required system reserves for compensating imbalance caused by renewable systems. • Comparisons of capacity factors for different technologies and different areas of the world. • Calculations of maximum share of renewables for different conditions.

Metody oceny:

The final mark will be given as a weighted average of two components: • 60% of a multiple-choice final test, • 40% of a homework project. The project will be made in teams of several students with individually assigned subjects.

Egzamin:

tak

Literatura:

1. IEA World Energy Outlook (currentedition). 2. Duffie J.A., Beckman W.A.: Solar Engineering of ThermalProcesses, John Willey&Sons, 2006. 3. Klimstra J., Power SupplyChallenges, Vaasa 2014.

Witryna www przedmiotu:

Uwagi:

Efekty uczenia się

Profil ogólnoakademicki - wiedza

Charakterystyka ANS534_W1

Students should understand advantages and disadvantages of various renewable energy systems and should be familiar with the trends observable in renewable energy sector.
Weryfikacja: Final test.
Powiązane charakterystyki kierunkowe: AiR2_W02
Powiązane charakterystyki obszarowe: I.P7S_WG, III.P7S_WG.o, P7U_W

Charakterystyka ANS534_W2

Students should be aware of direct and indirect costs associated with renewable energy intake.
Weryfikacja: Final test.
Powiązane charakterystyki kierunkowe: AiR2_W02
Powiązane charakterystyki obszarowe: I.P7S_WG, III.P7S_WG.o, P7U_W

Profil ogólnoakademicki - umiejętności

Charakterystyka ANS534_U1

Students should be able to analyze a potential to apply a renewable energy system in a specific region.
Weryfikacja: Final test and homework project.
Powiązane charakterystyki kierunkowe: AiR2_U01, AiR2_U18, AiR2_U19
Powiązane charakterystyki obszarowe: P7U_U, I.P7S_UW.o, III.P7S_UW.o, I.P7S_UW, III.P7S_UW.1.o, III.P7S_UW.3.o, I.P7S_UO

Charakterystyka ANS534_U2

Students should be able to identify challenges associated with integration of renewable energy sources in the framework of a larger energy system and should be able to solve the emergent technical problems.
Weryfikacja: Final test and homework project.
Powiązane charakterystyki kierunkowe: AiR2_U01, AiR2_U18, AiR2_U19
Powiązane charakterystyki obszarowe: P7U_U, I.P7S_UW.o, III.P7S_UW.o, I.P7S_UW, III.P7S_UW.1.o, III.P7S_UW.3.o, I.P7S_UO