Prerequisites for this master course include:
1.) Basic wind energy course, e.g.,
5.04.648 Wind Energy Utilisation (BA) or
5.06.M125 Basics of Wind Energy (MA) or
5.04.4061 Wind Energy Physics (MA) or
2.) Experience with MATLAB or Python
Exam or presentation or oral exam or homework or practical report.
In the last years, the grading was based on a report (80%) and a presentation and discussion (20%).
For those interested in improving their programming skills with python, we use the initiative of DataCamp for the classroom. We will share links to individual interactive online courses. Find more at https://www.datacamp.com/groups/education.
The students attending the course will have the possibility to expand and sharpen of their knowledge about wind turbine design from the basic courses. The lectures include topics covering the whole spectrum from early design phase to the operation of a wind turbine. Students will learn in exercises how to calculate and evaluate design aspects of wind energy converters. At the end of the lecture, they should be able to: + estimate the site specific energy yield, + calculate the aerodynamics of wind turbines using the blade element momentum theory, + model wind fields to obtain specific design situations for wind turbines, + estimate the influence of dynamics of a wind turbine, especially in the context of fatigue loads, + transfer their knowledge to more complex topics such as simulation and measurements of dynamic loads, + assess economic aspects of wind turbines.
Introduction to industrial wind turbine design, + rotor aerodynamics and Blade Element Momentum (BEM) theory, + dynamic loading and system dynamics, + wind field modelling for fatigue and extreme event loading, + design loads and design aspects of onshore wind turbines, + simulation and measurements of dynamic loads, + design of offshore wind turbines.
The course is part of admission "Anmeldung gesperrt (global)".
Erzeugt durch den Stud.IP-Support The following rules apply for the admission: