摘要
The response of the East China Sea (ECS) to a tropical cyclone (TC) is studied with a two-layernonlinear primitive equation ocean model. Numerica experiments indicate that there is rightward bias inocean response to a moving TC. The initial middle layer (ML) depth and stratification intensity havesubstantial impact on the Changes of SST and ML depth. The initial ML depth has large effect onthe value of the current, whereas the initial stratification intensity has slight influence on it. Thedistribution of ECS ML depth, especially the special ocean thermal structure on the continental shelf facil-itates the drop of SST. The simulation results of ocean response to Typhoon 7002 are fairly consistentwith the observation data.
The response of the East China Sea (ECS) to a tropical cyclone (TC) is studied with a two-layernonlinear primitive equation ocean model. Numerica experiments indicate that there is rightward bias inocean response to a moving TC. The initial middle layer (ML) depth and stratification intensity havesubstantial impact on the Changes of SST and ML depth. The initial ML depth has large effect onthe value of the current, whereas the initial stratification intensity has slight influence on it. Thedistribution of ECS ML depth, especially the special ocean thermal structure on the continental shelf facil-itates the drop of SST. The simulation results of ocean response to Typhoon 7002 are fairly consistentwith the observation data.
基金
Supported by the National 8th --Five--Year Key Project (No 07).
