Effects of Buoyancy Flux on Upper-Ocean Turbulent Mixing Generated by Non-Breaking Surface Waves Observed in the South China Sea
编号:1133
稿件编号:1310 访问权限:仅限参会人
更新:2021-06-29 13:32:48
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摘要
The surface waves are the most energetic motions, which have great contribution to the turbulent mixing in the upper ocean. In this study, a novel turbulent mixing scheme is proposed in terms of the non-breaking wave velocity shear module with the buoyancy flux. In the scheme, the mixing coefficients can be calculated empirically from the significant wave height, the wave number, the wave frequency, the buoyancy frequency, and the turbulence Prandtl number. The buoyancy fluxes, as well as the non-breaking wave velocity shear production, are important for the upper-ocean turbulent mixing, and make the calculated turbulence dissipation rate closer to in situ observations, which are provided by the "Responses of Marine Hazards to Climate Change in the Western Pacific (ROSE)" Project. The effects of the buoyancy flux on the turbulent mixing are examined based on three numerical experiments using the MASNUM ocean model. In the experiments, the topography, the lateral boundaries, initialization conditions, and the surface forcing fluxes are taken from the GEBCO, HYCOM/NCODA, and ERA5 data, respectively. Comparing to the AVHRR remote sensing sea surface temperature (SST) products and in situ observations, the simulated results with the non-breaking wave-generated turbulent mixing gain significant improvement in the SST, upper-ocean temperature structure, and the mixed layer compared with the classic Mellor-Yamada scheme. The results show that the buoyancy flux is able to suppress the enhanced non-breaking wave-generated turbulent mixing, so that the improved model simulates the observations better than that without the buoyancy effects.
关键字
Non-Breaking Surface-Wave Generated mixing,Buoyancy Flux,South China Sea
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