Xia Huayong, Li Shuhua, Shi Maochong. Three-D numerical simulation of wind-driven current and density current in the Beibu Gulf[J]. Acta Oceanologica Sinica, 2001, (4): 455-472.
Citation:
Xia Huayong, Li Shuhua, Shi Maochong. Three-D numerical simulation of wind-driven current and density current in the Beibu Gulf[J]. Acta Oceanologica Sinica, 2001, (4): 455-472.
Xia Huayong, Li Shuhua, Shi Maochong. Three-D numerical simulation of wind-driven current and density current in the Beibu Gulf[J]. Acta Oceanologica Sinica, 2001, (4): 455-472.
Citation:
Xia Huayong, Li Shuhua, Shi Maochong. Three-D numerical simulation of wind-driven current and density current in the Beibu Gulf[J]. Acta Oceanologica Sinica, 2001, (4): 455-472.
The Casulli's difference scheme was introduced into the three-dimensional ocean model in the present paper, and the wind-driven current and thermohaline current were simulated. The results show that, southwesterly monsoon in summer induces a clockwise circulation in the Beibu Gulf, and the density gradient induces a counter-clockwise one; but the density current is more intense than the winddriven one in summer, especially in surface layer. In addition, the northeasterly monsoon in winter induces a counter-clockwise circulation. The simulated results don't support the traditional conclusion that there is a clockwise circulation in the Beibu Gulf in summer and a counter-clockwise one in winter, but support the statement that a counter-clockwise circulation exists in the Beibu Gulf all year round.
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