phy987 - Control of Wind Turbines and Wind Farms (Vollständige Modulbeschreibung)

phy987 - Control of Wind Turbines and Wind Farms (Vollständige Modulbeschreibung)

Originalfassung Englisch PDF Download
Modulbezeichnung Control of Wind Turbines and Wind Farms
Modulkürzel phy987
Kreditpunkte 6.0 KP
Workload 180 h
(
Attendance: 72 hrs, Self study: 108 hrs
)
Einrichtungsverzeichnis Institut für Physik
Verwendbarkeit des Moduls
  • Master Engineering Physics (Master) > Schwerpunkt: Renewable Energies
  • Master Sustainable Renewable Energy Technologies (Master) > Mastermodule
Zuständige Personen
  • Kühn, Martin (Modulverantwortung)
  • Kühn, Martin (Prüfungsberechtigt)
  • Petrovic, Vlaho (Prüfungsberechtigt)
Teilnahmevoraussetzungen
Wind Energy Utilization (Bachelor) or Wind Energy Physics (Master) or Basics of Wind Energy (Master SURE) and Design of Wind Energy Systems (can be attended in parllel
Kompetenzziele

After successful completion of the course, students

• will have understood the structure and the main components of the control system in a wind farm

• will have understood the main objectives for a wind farm control system and will be able to develop appropriate control algorithms for the said objectives

• will have understood relevant physical phenomena in a wind farm

• will be able to develop a control-oriented model of a wind turbine, and will have understood how to use it for the design and analysis of control algorithms

• will be able to independently apply different techniques from control engineering

• will have trained how to use methods from linear algebra and mathematical analysis for the design and analysis of control algorithms
Modulinhalte

The course covers the main techniques used in wind turbine and wind farm control. The course is structured in five sections:

Section I: Introduction to control in wind energy

• Introduction to the governing physics

• Control objectives in wind energy

• Overview of the control system

Section II: Control oriented modelling

• Modelling in time domain

• Modelling in frequency domain

• Time and frequency response

Section III: Standard wind turbine control

• Torque and pitch control

• Tuning of a PI controller

• Stability analysis

• Control of coupled systems

Section IV: Advanced wind turbine control

• Advanced control design approaches

• State space control

• Estimation techniques

Section V: Wind farm control

• Wake control strategies

• Active power control

• Power maximization
Literaturempfehlungen

Burton et al: Wind Energy Handbook, John Wiley, New York, Second Edition, 2011.

Ogata: Modern Control Engineering, Prentice Hall, Upper Saddle River, New Jersey, Third Edition, 1997
Links
Unterrichtssprache Englisch
Dauer in Semestern 1 Semester
Angebotsrhythmus Modul jährlich
Aufnahmekapazität Modul unbegrenzt
Modulart Wahlpflicht / Elective
Modullevel EB (Ergänzungsbereich / Complementary)
Lehr-/Lernform Lectures and exercises: 4 hours per week and home assignments
Vorkenntnisse Basic knowledge in linear algebra and mathematical analysis is required. Furthermore, a basic understanding of wind turbines and wind farms is required (e.g. Design of Wind Energy Systems). A good grasp of the Matlab/Simulink environment is required for exercises.
Lehrveranstaltungsform Kommentar SWS Angebotsrhythmus Workload Präsenz
Vorlesung 2 SoSe oder WiSe 28
Übung 2 SoSe oder WiSe 28
Präsenzzeit Modul insgesamt 56 h
Prüfung Prüfungszeiten Prüfungsform
Gesamtmodul
Written examination: Between 90 and 180 minutes or Oral examination: Between 20 and 45 minutes or Internship report: Between 15 and 30 pages