EGU22-3393, updated on 17 May 2022
https://doi.org/10.5194/egusphere-egu22-3393
EGU General Assembly 2022
© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Numerical simulation of directional JONSWAP sea waves taking into account four- and five-wave nonlinear resonances

Anna Kokorina1 and Alexey Slunyaev1,2
Anna Kokorina and Alexey Slunyaev
  • 1Institute of Applied Physics RAS, Russian Federation (a.sergeeva@appl.sci-nnov.ru)
  • 2HSE University, N. Novgorod, Russian Federation

We perform the direct numerical simulation of surface gravity waves in the deep sea with the initial conditions specified by waves with a given JONSWAP spectrum and the directional spreading according to the cos2 distribution. The High Order Spectral Method employed for the simulation, allows to control the order of nonlinearity through the parameter of the scheme, M. In particular, the value M = 1 corresponds to the linear solution, M = 3 – to the account of the cubic nonlinearity due to the four-wave nonlinear interactions. Most of the direct numerical simulations of the HOSM available in the literature, are performed with the parameter M = 3, which is sufficient to take into account the modulational instability. In this work we examine the role of even higher order nonlinear effects due to 5-wave interactions. To this end, a series of comparative numerical simulations have been performed with M = 3 and M = 4. The obtained wave data are examined with respect to the probability distribution functions for the wave heights, and the typical rogue wave shapes. So far, no new dynamical effects between waves associated with the high-order nonlinearity is found. The high-order nonlinearity seems to affect the dynamics of very steep waves leading to the generation of even slightly higher waves. The main part of the wave height probability distribution function remains unchanged.

 

The research is supported by the RFBR grants Nos. 20-05-00162 and 21-55-15008.

[1] A. Sergeeva (Kokorina), A. Slunyaev, Rogue waves, rogue events and extreme wave kinematics in spatio-temporal fields of simulated sea states. Nat. Hazards Earth Syst. Sci. 13, 1759-1771 (2013).

[2] A. Slunyaev, A. Sergeeva (Kokorina), I. Didenkulova, Rogue events in spatiotemporal numerical simulations of unidirectional waves in basins of different depth. Natural Hazards 84(2), 549-565 (2016).

[3] A. Slunyaev, A. Kokorina, Account of occasional wave breaking in numerical simulations of irregular water waves in the focus of the rogue wave problem. Water Waves 2(2), 243-262 (2020).

[4] A. Slunyaev, A. Kokorina, Numerical Simulation of the Sea Surface Rogue Waves within the Framework of the Potential Euler Equations. Izvestiya, Atmospheric and Oceanic Physics 56, No. 2, 179–190 (2020).

How to cite: Kokorina, A. and Slunyaev, A.: Numerical simulation of directional JONSWAP sea waves taking into account four- and five-wave nonlinear resonances, EGU General Assembly 2022, Vienna, Austria, 23–27 May 2022, EGU22-3393, https://doi.org/10.5194/egusphere-egu22-3393, 2022.

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