Research output: Contribution to specialist publication › Technical Report › peer-review
Research output: Contribution to specialist publication › Technical Report › peer-review
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TY - GEN
T1 - Atmospheric drivers of wind turbine blade leading edge erosion: Ancillary variables
AU - Pryor, S.C.
AU - Barthelmie, R.J.
AU - Campobasso, Sergio
AU - Delwik, Ebba
AU - Hannisdottir, Asta
AU - Hassager, Charlotte
AU - Kral, Stephan
AU - Reuder, Joachim
AU - Rodgers, Marianne
AU - Veraat, Marijn
PY - 2023/3/15
Y1 - 2023/3/15
N2 - Leading edge erosion (LEE) of wind turbine blades has been identified as a major factor in decreased wind turbine blade lifetimes and energy output over time. Accordingly, the International Energy Agency Wind Technology Collaboration Programme (IEA Wind TCP) created Task 46 to undertake cooperative research in the key topic of blade erosion. This report is a product of WorkPackage 2 Climatic conditions driving blade erosion. The objectives of the work summarized in this report are to: • Summarize efforts to elucidate critical atmospheric co-stressors that may accelerate leading edge erosion and hence for which meta-data regarding observations should be collated. • Briefly describe and summarize additional data pertaining to those LEE costressors from sites that were the focus of analyses of hydrometeors in the report “Atmospheric drivers of wind turbine blade leading edge erosion: Hydrometeors” (Pryor et al. 2021) Accompanying this report is a detailed spreadsheet that summarizes the meta-data regarding these co-stressor variables. That file is entitled: IEA46_WP2_METDATA_AncillaryData.xlsx. The doi is 10.5281/zenodo.7734765.
AB - Leading edge erosion (LEE) of wind turbine blades has been identified as a major factor in decreased wind turbine blade lifetimes and energy output over time. Accordingly, the International Energy Agency Wind Technology Collaboration Programme (IEA Wind TCP) created Task 46 to undertake cooperative research in the key topic of blade erosion. This report is a product of WorkPackage 2 Climatic conditions driving blade erosion. The objectives of the work summarized in this report are to: • Summarize efforts to elucidate critical atmospheric co-stressors that may accelerate leading edge erosion and hence for which meta-data regarding observations should be collated. • Briefly describe and summarize additional data pertaining to those LEE costressors from sites that were the focus of analyses of hydrometeors in the report “Atmospheric drivers of wind turbine blade leading edge erosion: Hydrometeors” (Pryor et al. 2021) Accompanying this report is a detailed spreadsheet that summarizes the meta-data regarding these co-stressor variables. That file is entitled: IEA46_WP2_METDATA_AncillaryData.xlsx. The doi is 10.5281/zenodo.7734765.
KW - disdrometer data
KW - wind turbine blade erosion
KW - measured wind and rain data at UK Hazelrigg weather station
KW - NERC DIVEN project
KW - towards blade erosion atlas
M3 - Technical Report
JO - International Energy Agency Wind Division
JF - International Energy Agency Wind Division
ER -