Abstract: This paper extends the two-layer high-level Green–Naghdi (HLGN) internal-wave model to study boundary time-varying problems, involving moving bottom or surface disturbances. The equations for the two-layer HLGN model with time-varying boundaries are presented, accompanied by a time-domain algorithm for solving these equations. The wave profiles predicted by the HLGN model for internal waves generated by boundary disturbances, whether occurring at the bottom or at the surface, show excellent agreement with results obtained by the fully nonlinear potential-flow (FNPF) solution. For internal waves generated by a surface moving disturbance, the results obtained by the HLGN model show good agreement with the experimental observations and the FNPF solution, including the relationships between the disturbance speed and the resulting wave amplitude and phase speed. Furthermore, the HLGN model is applied to analyse the evolution of the wave profiles and speed generated by the surface disturbance with different moving speeds. In addition, the extended HLGN model incorporates background linear shear currents to examine internal waves generated by a moving bottom disturbance with a linear shear current. The results reveal that background vorticity exerts a pronounced modulation effect on the wave profile and velocity field. Counter-flow narrows the waves and increases their phase speed, whereas co-flow broadens the waves and enhances their amplitude.

Cite: Zhang T. , Wang Z. , Zhao B. , Davoodi M.H. , Ertekin R.C. , Chesnokov A. , Shmakova N. , Duan W.
High-level Green–Naghdi model for internal solitary waves generated by time-varying boundaries
Journal of Fluid Mechanics. 2026. V.1027. A4 :1-33. DOI: 10.1017/jfm.2025.10996

Dates:

Submitted:	Jun 10, 2025
Accepted:	Nov 27, 2025

Identifiers: No identifiers

Citing: Пока нет цитирований

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