Generation mechanism and prediction of an observed extreme rogue wave
Date
2022
Authors
Gemmrich, Johannes
Cicon, Leah
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Publisher
Scientific Reports
Abstract
Rogue waves are individual ocean surface waves with crest height [Formula: see text] or trough-to-crest height H that are large compared to the significant wave height [Formula: see text] of the underlying sea state: [Formula: see text] or [Formula: see text]. The physics of rogue wave generation and the potential of predicting the rogue wave risk are open questions. Only a few rogue waves in high sea states have been observed directly, but they can pose a danger to marine operations, onshore and offshore structures, and beachgoers. Here we report on a 17.6m high rogue wave in coastal waters with [Formula: see text] and [Formula: see text] which are likely the largest normalized heights ever recorded. Simulations of random superposition of Stokes waves in intermediate water depth show good agreement with the observation. Non-linear wave modulational instability, a well known cause for rogue waves in laboratory settings, did not contribute significantly to the rogue wave generation. A parameter obtained from a routine spectral wave forecast provides a practical risk prediction for rogue waves. These results confirm that probabilistic prediction of oceanic rogue waves based on random superposition of steep waves are possible and should replace predictions based on modulational instability.
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Citation
Gemmrich, J., & Cicon, L. (2022). Generation mechanism and prediction of an observed extreme rogue wave. Scientific Reports, 12, 1718. https://doi.org/10.1038/s41598-022-05671-4