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Possible changes and occurrences of future wave power in an enclosed sea using a high-resolution regional climate model

The present study evaluates future wave power resources and detects a possible impact of climate change on wave power in an enclosed sea (Black Sea) for the 21st century. The wave data are obtained from a third-generation spectral wave model using a validated RCM (Regional Climate Model). The wave p...

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Bibliographic Details
Published in:Ocean engineering 2024-07, Vol.303, p.117843, Article 117843
Main Authors: Islek, Fulya, Yuksel, Yalcin
Format: Article
Language:English
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Summary:The present study evaluates future wave power resources and detects a possible impact of climate change on wave power in an enclosed sea (Black Sea) for the 21st century. The wave data are obtained from a third-generation spectral wave model using a validated RCM (Regional Climate Model). The wave power projection and projected occurrences are analyzed for near and middle future (NF, MF) periods based on two RCP (Representative Concentration Pathway) scenarios (4.5 and 8.5). Possible changes in wave power for the NF 2021–2060 and MF 2061−2100 periods are evaluated by comparing the historical (1970–2005) period. According to two RCP scenarios, the wave power potential for the NF is expected to increase markedly over the entire basin, while, for the MF, the changes are projected by decreases, especially in the northeastern and western parts of the basin. Furthermore, projected occurrences are examined using Energy Level Occurrences known as available, moderate, and rich level occurrences. The 15 reference points over the basin are chosen to detect the most suitable location(s) for future wave power developments. All spatial and local analyses indicate that the western basin, especially the southwest, will continue having high wave power potential and occurrences in future periods. •Evaluation of future wave energy and detection of a possible climate change impact on wave power for the 21st century.•Long-term and seasonal averages of wave power and future changes are examined in two future periods for two RCP scenarios.•15 points covering the Black Sea are analyzed to detect the most suitable location(s) for future developments of wave power.
ISSN:0029-8018
1873-5258
DOI:10.1016/j.oceaneng.2024.117843