Diese Webseite wird nicht mehr aktualisiert.

Mit 1.10.2022 ist die Fakultät für Physik in der TUM School of Natural Sciences mit der Webseite https://www.nat.tum.de/ aufgegangen. Unter Umstellung der bisherigen Webauftritte finden Sie weitere Informationen.

de | en

Modeling, Control and Design of Wind Energy Systems

Lehrveranstaltung 0000002758 im WS 2022/3

Basisdaten

LV-Art Übung
Umfang 1 SWS
betreuende Organisation Lehrstuhl für Windenergie (Prof. Bottasso)
Dozent(inn)en Abhinav Anand
Franz Mühle
Robert von Braunbehrens
Leitung/Koordination: Carlo Bottasso
Termine Di, 14:00–16:00, LMU-HS

Zuordnung zu Modulen

weitere Informationen

Lehrveranstaltungen sind neben Prüfungen Bausteine von Modulen. Beachten Sie daher, dass Sie Informationen zu den Lehrinhalten und insbesondere zu Prüfungs- und Studienleistungen in der Regel nur auf Modulebene erhalten können (siehe Abschnitt "Zuordnung zu Modulen" oben).

ergänzende Hinweise The course offers a broad introduction to the engineering principles underlying the operation of wind turbines, as well as their design. The course is organized in the following five main modules: • Introduction: introduction to wind energy, and overview of wind energy systems and wind turbines; the wind resource and its characteristics; anatomy of a modern wind turbine; wind turbine components; electrical aspects. • Wind turbine aerodynamics: overview of rotor aerodynamics; one-dimensional momentum theory and Betz limit; wake swirl; airfoils; blade element momentum theory, dynamic inflow; unsteady corrections, blade tip and hub losses, dynamic stall, stall delay and three-dimensional effects; deterministic and stochastic wind models. • Dynamics and aeroservoelasticity: rigid and elastic flapping and lagging blade; the rotor as a filter, aerodynamic damping, flutter, limit cycle oscillations; loads; stability analysis; aeroservoelastic models of wind turbines; aeroservohydroelastic models for off-shore applications. • Wind turbine control: overview and architecture of wind turbine control systems; on-board sensors; supervisory control; regulation strategies; trimmers, load-reducing control, dampers; load and wind observers. • Wind turbine design: overview of design criteria and certification guidelines; aerodynamic design; structural design; design and choice of sub-systems and components.
Links TUMonline-Eintrag

Gleiche Lehrveranstaltungen (z. B. in anderen Semestern)

SemesterTitelDozent(en)Termine
SS 2024 Modeling, Control and Design of Wind Energy Systems Anand, A. von Braunbehrens, R.
Leitung/Koordination: Bottasso, C.
Di, 18:00–20:00, MW 0350
WS 2023/4 Modeling, Control and Design of Wind Energy Systems Anand, A. Mühle, F. von Braunbehrens, R.
Leitung/Koordination: Bottasso, C.
Di, 14:00–16:00, LMU-HS
SS 2023 Modeling, Control and Design of Wind Energy Systems Anand, A. Mühle, F. von Braunbehrens, R.
Leitung/Koordination: Bottasso, C.
Di, 18:00–20:00, MW 0350
SS 2022 Modeling, Control and Design of Wind Energy Systems Mühle, F. von Braunbehrens, R. Di, 18:00–20:00, MW 0350
WS 2021/2 Modeling, Control and Design of Wind Energy Systems Mühle, F. von Braunbehrens, R. Di, 14:00–16:00, LMU-HS
SS 2021 Modeling, Control and Design of Wind Energy Systems Mühle, F. von Braunbehrens, R. Di, 18:00–20:00, virtuell
WS 2020/1 Modeling, Control and Design of Wind Energy Systems Mühle, F. Di, 14:00–16:00, virtuell
SS 2020 Modeling, Control and Design of Wind Energy Systems Mühle, F. Di, 18:00–20:00, MW 0350
WS 2019/20 Modeling, Control and Design of Wind Energy Systems
SS 2019 Modeling, Control and Design of Wind Energy Systems
WS 2018/9 Modeling, Control and Design of Wind Energy Systems
SS 2018 Modeling, Control and Design of Wind Energy Systems
WS 2017/8 Modeling, Control and Design of Wind Energy Systems
SS 2017 Modeling, Control and Design of Wind Energy Systems
WS 2016/7 Modeling, Control and Design of Wind Energy Systems
SS 2016 Modeling, Control and Design of Wind Energy Systems
WS 2015/6 Modeling, Control and Design of Wind Energy Systems
SS 2015 Modeling, Control and Design of Wind Energy Systems
WS 2014/5 Modeling, Control and Design of Wind Energy Systems
SS 2014 Modeling Control and Design of Wind Energy Systems
WS 2013/4 Modeling Control and Design of Wind Energy Systems
Nach oben