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| Module code: UI-T-WPV |
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4V (4 hours per week) |
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5 |
| Semester: 6 |
| Mandatory course: yes |
Language of instruction:
German |
Assessment:
Written exam, duration: 90 minutes
[updated 26.01.2023]
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EE1606 (P212-0083) Energy system technology / Renewable energies, Bachelor, ASPO 01.10.2022
, semester 6, mandatory course
UI-T-WPV (P212-0083) Environmental Technologies, Bachelor, ASPO 01.10.2023
, semester 6, mandatory course
UI-T-WPV (P212-0083) Environmental Technologies, Bachelor, ASPO 01.10.2025
, semester 6, mandatory course
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60 class hours (= 45 clock hours) over a 15-week period.
The total student study time is 150 hours (equivalent to 5 ECTS credits).
There are therefore 105 hours available for class preparation and follow-up work and exam preparation.
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Recommended prerequisites (modules):
None.
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Recommended as prerequisite for:
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Module coordinator:
Prof. Dr. Marc Deissenroth-Uhrig |
Lecturer: Prof. Dr. Marc Deissenroth-Uhrig
[updated 28.10.2024]
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Learning outcomes:
After successfully completing this course, students will:
- be able to explain the formation of wind, taking into account local characteristics
- have mastered simple analytical methods and procedures for dimensioning wind turbines
- have mastered the blade element method for the design of rotor blades based on experiments
- be able to explain the use and procedure of flow simulation in rotor design
- be able to explain the structural design of current drivetrains and developing trends
- be able to explain current tower concepts
- be able to explain the most important loads and structural stresses for pre-dimensioning
- be able to name and explain the main electrical concepts used in the wind industry
- be familiar with the control and regulation of wind turbines with regard to operational management
- have mastered simple methods for the economic evaluation of wind turbines and possible locations
- be able to name and explain the most important special features for the planning, construction and operation of offshore plants
- be able to describe the structure and function of a solar cell
- be able to explain the factors that influence efficiency with the help of semiconductor physics
- be able to assess the degree of efficiency improvement in new cell developments
- be able to analyze the electrical performance data of a PV system, identify the factors influencing its performance losses and propose solutions for improvement
- be able to use simple analytical methods and procedures to design PV systems according to various system concepts and calculate the expected energy yield.
[updated 26.01.2023]
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Module content:
Wind energy
- Wind formation and distribution
- Physical principles of wind energy conversion ( Impulse Theory according to Betz)
- Design structure of wind turbines
- Rotor aerodynamics ( blade element method, CFD)
- Mechanical drivetrain (structure, components)
- Tower and foundation
- Loads and structural stresses
- Electrical system of a wind turbine
- Control, regulation and operation management
- Planning, construction and operation
- Costs of wind turbines and economic efficiency
- Offshore wind power
Photovoltaics
- The annual and daily cycle of solar irradiance
- Introduction to the semiconductor physics of solar cells,
- Design and mode of operation of solar cells, parameters that influence efficiency
- Types of solar cells and development trends
- Solar curves of modules and generators with
- Influences of temperature, mismatching and partial shading on the system efficiency
- Wiring concepts
[updated 26.01.2023]
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Teaching methods/Media:
Seminar-style teaching with integrated tutorials
[updated 26.01.2023]
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Recommended or required reading:
Gasch, Robert (Hrsg.): Windkraftanlagen, Springer Vieweg, (akt. Aufl.)
Kaltschmitt, Martin (Hrsg.): Erneuerbare Energien, Springer, (akt. Aufl.)
Mertens, Konrad: Photovoltaik, Hanser, (akt. Aufl.)
Quaschning, Volker: Regenerative Energiesysteme, Hanser, (akt. Aufl.)
Wagemann, Hans-Günther; Eschrich, Heinz: Photovoltaik, Vieweg + Teubner, 2010, 2. Aufl.
[updated 26.01.2023]
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