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W2800005016 abstract "Wave energy converters are specifically designed to extract the maximum energy from a given location. To that end, wave data statistics based on past measures at the given location are commonly used, neglecting any possible future wave trend. This paper studies the variations of the wave energy resource off the west coast of Ireland over the 20th century via the atmospheric reanalyses created by the European Centre for Medium-Range Weather Forecasts. In particular, the European Re-Analysis ERA20 is calibrated via quantile-matching against the new European Re-Analysis ERA-Interim for the period 1979–2010. In addition, the calibrated ERA20 reanalysis is validated against buoy measurements in the area of interest. Results show a significant increase of the wave energy resource along the last century (an increase of over 40%), for which the largest increase is observed within the last 20 years (an increase of 18% between 1980 and 2000). The paper shows that these variations considerably affect the power absorption of realistic devices, showing a power surplus of up to 15% within the lifespan of a wave energy converter. Finally, an increase of extreme events over the last century is also observed, highlighting its impact on power production due to the need of wave energy converters to switch into survival mode during extreme events." @default.
W2800005016 created "2018-05-17" @default.
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W2800005016 date "2018-08-01" @default.
W2800005016 modified "2023-10-15" @default.
W2800005016 title "Wave energy resource variation off the west coast of Ireland and its impact on realistic wave energy converters’ power absorption" @default.
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W2800005016 cites W1966945655 @default.
W2800005016 cites W1973004857 @default.
W2800005016 cites W1978542318 @default.
W2800005016 cites W1978779306 @default.
W2800005016 cites W1984896961 @default.
W2800005016 cites W1985495944 @default.
W2800005016 cites W1987466762 @default.
W2800005016 cites W1998803899 @default.
W2800005016 cites W2002123774 @default.
W2800005016 cites W2008669846 @default.
W2800005016 cites W2010011979 @default.
W2800005016 cites W2017559255 @default.
W2800005016 cites W2018408660 @default.
W2800005016 cites W2023750542 @default.
W2800005016 cites W2024966118 @default.
W2800005016 cites W2026128738 @default.
W2800005016 cites W2027446201 @default.
W2800005016 cites W2033781209 @default.
W2800005016 cites W2038977807 @default.
W2800005016 cites W2042005022 @default.
W2800005016 cites W2047542720 @default.
W2800005016 cites W2048512767 @default.
W2800005016 cites W2053974573 @default.
W2800005016 cites W2058499301 @default.
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W2800005016 cites W2091634553 @default.
W2800005016 cites W2091810011 @default.
W2800005016 cites W2094999543 @default.
W2800005016 cites W2097757623 @default.
W2800005016 cites W2109929820 @default.
W2800005016 cites W2117355623 @default.
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W2800005016 cites W2133850325 @default.
W2800005016 cites W2135304533 @default.
W2800005016 cites W2152831301 @default.
W2800005016 cites W2173251738 @default.
W2800005016 cites W2173338072 @default.
W2800005016 cites W2174106502 @default.
W2800005016 cites W2301681864 @default.
W2800005016 cites W2326828262 @default.
W2800005016 cites W2345929522 @default.
W2800005016 cites W2345931751 @default.
W2800005016 cites W2394879936 @default.
W2800005016 cites W2464180915 @default.
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W2800005016 doi "https://doi.org/10.1016/j.apenergy.2018.04.121" @default.
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