At present, studies on large-amplitude internal solitary waves mostly adopt strong stratification models, such as the twoand three-layer Miyata–Choi–Camassa(MCC) internal wave models, which omit the pycnocline or treat it as another fluid layer with a constant density. Because the pycnocline exists in real oceans and cannot be omitted sometimes, the computational error of a large-amplitude internal solitary wave within the pycnocline introduced by the strong stratification approximation is unclear. In this study, the two-and three-layer MCC internal wave models are used to calculate the wave profile and wave speed of large-amplitude internal solitary waves. By comparing these results with the results provided by the Dubreil–Jacotin–Long(DJL) equation, which accurately describes large-amplitude internal solitary waves in a continuous density stratification, the computational errors of large-amplitude internal solitary waves at different pycnocline depths introduced by the strong stratification approximation are assessed. Although the pycnocline thicknesses are relatively large(accounting for 8%–10% of the total water depth), the error is much smaller under the three-layer approximation than under the two-layer approximation.

• 单位
  哈尔滨工程大学