Vibration-based experimental damage detection of a small-scale wind turbine blade
Author(s): |
Yaowen Ou
Eleni N. Chatzi Vasilis K. Dertimanis Minas D. Spiridonakos |
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Medium: | journal article |
Language(s): | English |
Published in: | Structural Health Monitoring, August 2016, n. 1, v. 16 |
Page(s): | 79-96 |
DOI: | 10.1177/1475921716663876 |
Abstract: |
Structural health monitoring offers an attractive tool for condition assessment, fault prognosis and life-cycle management of wind turbine components. However, owing to the intense loading conditions, geometrical nonlinearities, complex material properties and the lack of real-time information on induced structural response, damage detection and characterization of structural components comprise a challenging task. This study is focused on the problem of damage detection for a small-scale wind turbine (Sonkyo Energy Windspot 3.5 kW) experimental blade. To this end, the blade is dynamically tested in both its nominal (healthy) condition and for artificially induced damage of varying types and intensities. The response is monitored via a set of accelerometers; the acquired signals serve for damage detection via the use of appropriate statistical and modal damage detection methods. The former rely on extraction of a characteristic statistical quantity and establishment of an associated statistical hypothesis test, while the latter rely on tracking of damage-sensitive variations of modal properties. The results indicate that statistical-based methods outperform modal-based ones, succeeding in the detection of induced damage, even at low levels. |
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data sheet - Reference-ID
10562002 - Published on:
11/02/2021 - Last updated on:
19/02/2021