E841 – Renewable Energy (Solar, Wind, Waterpower)

Modul
Renewable Energy (Solar, Wind, Waterpower)
Renewable Energy (Solar, Wind, Waterpower)
Modulnummer
E841
Version: 1
Fakultät
Elektrotechnik
Niveau
Master
Dauer
1 Semester
Turnus
Sommersemester
Modulverantwortliche/-r

Prof. Dr.-Ing. habil. Lutz Göhler
lutz.goehler(at)htw-dresden.de

Dozent/-in(nen)

Prof. Dr.-Ing. habil. Lutz Göhler
lutz.goehler(at)htw-dresden.de

Lehrsprache(n)

Englisch
in "Renewable Energy (Solar, Wind, Waterpower) "

ECTS-Credits

3.00 Credits

Workload

90 Stunden

Lehrveranstaltungen

2.00 SWS (2.00 SWS Vorlesung)

Selbststudienzeit

30.00 Stunden

Prüfungsvorleistung(en)
Keine
Prüfungsleistung(en)

Schriftliche Prüfungsleistung
Prüfungsdauer: 120 min | Wichtung: 100% | wird in englischer Sprache abgenommen
in "Renewable Energy (Solar, Wind, Waterpower) "

Lehrform

Lectures, exercises

Medienform

Board, projector

Lehrinhalte/Gliederung

Overview in the area of renewable energies:

  • need for renewables, legal aspects
  • solar thermal power (non-concentrating and concentrating collectors, solar thermal systems, solar power stations)
  • photovoltaics (solar cell, losses, energy storage)
  • wind energy (rotor types, system types)
  • hydropower (turbine types, system types)
  • geothermal energy (system types)
  • biomass (biomasses, system types)
Qualifikationsziele

Students will obtain insights in various innovative techniques of environmental engineering. The lecture gives an overview over the technical use of solar energy, wind energy, hydropower, geothermal energy and biomass. Based on the understanding why renewable energies are important some basic economic figures are explained. Afterwards, the focus is on the different types of renewables. Underlying physical principles are explained and the most important components of state-of-the-art technical systems are discussed.

Students will be able to describe latest environmental technologies in special areas and discuss these innovations in detail. Students will be able to present the structure and function of renewable energy systems. They have a basic knowledge of the economic aspects of renewable energy.

Sozial- und Selbstkompetenzen
Keine Angabe
Besondere Zulassungsvoraussetzung
Keine Angabe
Empfohlene Voraussetzungen
Keine Angabe
Fortsetzungsmöglichkeiten
Keine Angabe
Literatur

Peuser, F. (2011) Solar Thermal Systems: Successful Planning and Construction. Solarpraxis, ISBN 978-1849713313.

Häberlin, H. (2012) Photovoltaics: System Design and Practice. VDE-Verlag, ISBN 978-3800733514.

Gevorkian, P. (2012) Large-Scale Solar Power System Design. Cambridge University Press, ISBN 978-1107027688.

Burton, T., Jenkins, N., Sharoe, D., Bossanyi, E. (2011) Wind Energy Handbook. John Wiley & Sons, 978-0470699751.

Wagner, H.-J. (2011) Introduction to Hydro Energy Systems: Basics, Technology and Operation. Springer, 978-3642207082.

Watson, A. (2013) Geothermal Engineering: Fundamentals and Applications. Springer, 978-1461485681.

Huenges, E. (2010) Geothermal Energy Systems: Exploration, Development, and Utilization. Wiley-VCH Verlag GmbH & Co. KGaA, 978-3527408313.

Capareda, S. (2013) Introduction to Biomass Energy Conversions. Taylor & Francis Inc, 978-1466513334.

Aktuelle Lehrressourcen

keine

Hinweise
Keine Angabe