A methodology for developing a prediction model for the remaining fatigue life and residual strength of tidal turbine blades
Finnegan, William Goggins, Jamie
Finnegan, William
Goggins, Jamie
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Publication Date
2023-09-02
Type
conference paper
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Citation
Munaweera Thanthirige, Tenis Ranjan, Goggins, Jamie, & Finnegan, William. (2023). A methodology for developing a prediction model for the remaining fatigue life and residual strength of tidal turbine blades. Paper presented at the 15th European Wave and Tidal Energy Conference, 3–7 September. Bilbao, Spain, https://doi.org/10.36688/ewtec-2023-285
Abstract
As tidal energy nears commercial viability; the reliability and safety of a tidal energy device becomes more prevalent. A key aspect for determining their reliability and safety, along with reducing risk during operational deployment, is the structural integrity of tidal turbine blades. Therefore, a validated model for predicting the structural integrity of tidal turbine blades will aid in de-risking tidal energy technologies. In this study, a three-phase approach was used to formulate a strategy to predict the remaining fatigue life and residual strength of tidal turbine blades, over their operational lifespan. In Phase 1, the parameters influencing the structural properties of tidal turbine blades were identified based on the literature review, and the expertise in the field. Then, parameters were extensively studied and classified into four main impact groups, which include load conditions, design and manufacturing, degradation, and unexpected situations. In Phase 2, a data management strategy was formulated related to identified four impact categories and investigated the possible methods of analysing the data. In this context, finite element analysis of composite tidal turbine blades was identified as the most appropriate tool to comprehensively examine collected data, prior to comparing the results to the field and laboratory-based test data. In Phase 3, with the information gathered, as well as knowledge and experience in the field, a method for estimating the residual strength and remaining fatigue life of tidal turbines at each stage of their operation was formulated. The model will be validated using experimental testing datasets and used to develop vulnerability curves related to the remaining structural life of tidal turbine blades in the future.
Publisher
European Wave and Tidal Energy Conference
Publisher DOI
Rights
Attribution-NonCommercial-NoDerivatives 4.0 International