pb355 - Wind Energy Utilisation (Complete module description)

pb355 - Wind Energy Utilisation (Complete module description)

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Module label Wind Energy Utilisation
Module code pb355
Credit points 6.0 KP
Workload 180 h
(
Lecture: 2 hrs/week, Software Training: 2hrs/week
)
Institute directory Institute of Physics
Applicability of the module
  • Bachelor's Programme Biology (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Business Administration and Law (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Business Informatics (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Chemistry (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Comparative and European Law (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Computing Science (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Economics and Business Administration (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Education (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Engineering Physics (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Environmental Science (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Intercultural Education and Counselling (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Mathematics (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Physics (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Physics, Engineering and Medicine (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Social Studies (Bachelor) > Fachnahe Angebote Engineering Physics
  • Bachelor's Programme Sustainability Economics (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Art and Media (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Biology (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Chemistry (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Computing Science (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Dutch Linguistics and Literary Studies (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Economic Education (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Economics and Business Administration (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Education (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Elementary Mathematics (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme English Studies (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Gender Studies (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme General Education (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme German Studies (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme History (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-subject bachelor's programme Low German (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Material Culture: Textiles (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Mathematics (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Music (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Philosophy / Values and Norms (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Physics (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Politics-Economics (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Protestant Theology and Religious Education (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Slavic Studies (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Social Studies (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Special Needs Education (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Sport Science (Bachelor) > Fachnahe Angebote Engineering Physics
  • Dual-Subject Bachelor's Programme Technology (Bachelor) > Fachnahe Angebote Engineering Physics
  • Fach-Bachelor Pädagogisches Handeln in der Migrationsgesellschaft (Bachelor) > Fachnahe Angebote Engineering Physics
Responsible persons
  • Kühn, Martin (authorised to take exams)
  • Schmidt, Andreas Hermann (authorised to take exams)
  • Kühn, Martin (module responsibility)
Prerequisites
Skills to be acquired in this module
Understanding basic principles of wind energy conversion. Students who have attended Wind Energy Utilisation in the Bachelor phase should be able to directly enrol for advanced wind energy lectures
in the Master phase (without attending 5.04.4061 – Wind Energy Physics)
Module contents
This lecture with exercises is intended as introduction into physics and engineering of wind energy utilisation. Nevertheless also social, historical and political aspects are regarded. The lecture gives a deeper
understanding of physical effects, methods, calculations and parameters into the field of wind energy utilisation, wind physics and wind energy science. Experiments and exhibits are used to deliver deeper
insights into the subjects of the lectures. The tutorial part consists of calculation exercises and an introduction into the common and professional software WindPro (subject to modifications). Content: The
wind: generation, occurence, measurement, profiles etc.; Energy and power in the wind; Drag driven converters; Principle of lift driven converters; Dimensionless parameters and characteristic diagrams of
wind turbines; Optimum twist and horizontal plan of the rotor blade; Rotor power losses; Power control; Generator concepts and grid interaction; Loads; Mechanical design and components of a wind turbine; Calculation of energy yield; Economics; Wind farms, wakes and wind farm efficiency; Environmental effects; Unconventional converters; Prepared discussion about social and political aspects; Use of wind farm calculation software WindPro
Recommended reading
Links
Language of instruction English
Duration (semesters) 1 Semester
Module frequency Winter or Summer
Module capacity unlimited
Examination Prüfungszeiten Type of examination
Final exam of module
G
Type of course Lecture
SWS 4
Frequency SuSe or WiSe
Workload attendance time 56 h