Fault-Tolerant Control of Wind Turbines: A Benchmark Model

Author

Odgaard, Peter F. ; Stoustrup, Jakob ; Kinnaert, Michel

Author_Institution

Aalborg Univ., Aalborg, Denmark

Volume

21

Issue

4

fYear

2013

fDate

Jul-13

Firstpage

1168

Lastpage

1182

Abstract

This paper presents a test benchmark model for the evaluation of fault detection and accommodation schemes. This benchmark model deals with the wind turbine on a system level, and it includes sensor, actuator, and system faults, namely faults in the pitch system, the drive train, the generator, and the converter system. Since it is a system-level model, converter and pitch system models are simplified because these are controlled by internal controllers working at higher frequencies than the system model. The model represents a three-bladed pitch-controlled variable-speed wind turbine with a nominal power of 4.8 MW. The fault detection and isolation (FDI) problem was addressed by several teams, and five of the solutions are compared in the second part of this paper. This comparison relies on additional test data in which the faults occur in different operating conditions than in the test data used for the FDI design.

Keywords

actuators; blades; fault diagnosis; fault tolerance; sensors; variable speed drives; wind turbines; FDI design; FDI problem; accommodation schemes; actuator; converter system; drive train; fault detection and isolation problem; fault-tolerant control; generator; internal controllers; nominal power; pitch system; sensor; system faults; system model; system-level model; test benchmark model; three-bladed pitch-controlled variable-speed wind turbine; wind turbines; Benchmark modeling; fault detection; fault isolation; fault-tolerant control (FTC); wind turbines;

fLanguage

English

Journal_Title

Control Systems Technology, IEEE Transactions on

Publisher

ieee

ISSN

1063-6536

Type

jour

DOI

10.1109/TCST.2013.2259235

Filename

6518165