A Numerical Model of Circulation in the East China Sea

Xu Bo Zhou; Xu Yan; Wen Xin Sun

doi:10.4028/www.scientific.net/AMM.733.431

Paper Titles

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Influence of Organic Loading Rate on the Process Imbalance of Anaerobic Digestion with Food Waste
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Research on Treatment of Rural Household Solid Wastes
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Some Numerical Simulations of Circulation in the East China Sea
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A Numerical Model of Circulation in the East China Sea
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On Fire Severity of Building in Performance-Based Design
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Research Strategies on Sustainable Building Design
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Study of Guizhou Province Guanling Daz-Hai Landslide Instability Process under the Rainstorm
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Study on Optimization of Anti-Seepage and Drainage System for High Concrete Sand-Gravel Dam
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 733A Numerical Model of Circulation in the East China...

A Numerical Model of Circulation in the East China Sea

Abstract:

The coastal circulation is one of the focuses in environmental protection. A self-adaptive numerical model of the circulation in the East China Sea (the Bohai Sea, Huanghai Sea (Yellow Sea) and East China Sea) (ECS) is established for the first time. By using a self-adaptive grid system, the grids are denser at the continental slope of the ECS. Thus, the difficult problem of applying a 3-dimensional (3D) baroclinic model with coordinate transformation at continental slope is solved. This model can be used to simulate 3D baroclinic current fields and to obtain wind-driven, thermohaline and tide-induced Lagrangian circulation.