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数值波浪模型
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  numerical wave model
     The prediction and estimation of wave characteristics are described by using the third generation spectral numerical wave model SWAN (Simulating Wave Nearshore).
     通过第3代谱数值波浪模型(Simulating Wave Nearshore, SWAN)预测和估计波浪特性.
短句来源
     Application of numerical wave model SWAN at Yangon Port
     数值波浪模型在仰光港的应用(英文)
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     To validate the present numerical wave model, a numerical simulation of wave action on seabed pipeline is carried out with the numerical wave tank at Re=10700. The calculated wave force is in reasonable agreement with the measured results.
     为了检验该数值波浪模型的有效性 ,本文中用该数值波浪水槽进行了海底管线在波浪场中受力的数值实验 ,并与物模实验的结果做了对比 ,其雷诺数 Re为 10 70 0。
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  相似匹配句对
     Application of numerical wave model SWAN at Yangon Port
     数值波浪模型在仰光港的应用(英文)
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     Research on the Practical Numerical Simulating Model System of Near Shore Wave
     近岸波浪数值模拟实用模型系统的研究
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     Application of a numerical model for shallow water waves
     一种浅水波浪数值模型的应用研究
短句来源
     Improved numerical model for nearshore wave breaking
     一种改进的近岸波浪破碎数值模型
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     Mechanism and application of a third generation wave model SWAN for shallow water
     浅水波浪数值模型SWAN的原理及应用综述
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  numerical wave model
A vertical 2-D numerical wave model was developed based on unsteady Reynolds equations.
      
A numerical wave model was used to determine the wave climate in the southern Baltic Sea.
      
It is shown that the numerical wave model MRI can predict rather well, not only the frequency spectrum, but also the angular distribution function of the spectrum.
      
The GLERL wave model is a parametric, deep water numerical wave model.
      
The first numerical wave model used was a model to evaluate the offshore, deepwater wave environment.
      
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A numerical wave tank is established based on the extended pseudo-concentration method and Sommerfeld absorbing boundary conditions. The 2-D Navier-Stokes equations for viscous incompressible flow is solved by the finite element method (FEM) coupled with the large eddy simulation (LES) turbulent model in an Eulerian framework. The free surface function equation is solved in a Lagrangian framework defined along the trajectories of the fluid particles. To validate the present numerical wave model, a numerical...

A numerical wave tank is established based on the extended pseudo-concentration method and Sommerfeld absorbing boundary conditions. The 2-D Navier-Stokes equations for viscous incompressible flow is solved by the finite element method (FEM) coupled with the large eddy simulation (LES) turbulent model in an Eulerian framework. The free surface function equation is solved in a Lagrangian framework defined along the trajectories of the fluid particles. To validate the present numerical wave model, a numerical simulation of wave action on seabed pipeline is carried out with the numerical wave tank at Re=10700. The calculated wave force is in reasonable agreement with the measured results.

本文基于扩展的虚拟浓度和 Sommerfeld线性辐射边界条件建立了数值波浪水槽。用有限元方法结合大涡模拟 (L ES)湍流模型在 Euler坐标系统中求解了二维不可压粘性流体的N- S方程 ,而自由表面函数方程是在沿流体质点迹线定义的 L agrange系统中求解的。为了检验该数值波浪模型的有效性 ,本文中用该数值波浪水槽进行了海底管线在波浪场中受力的数值实验 ,并与物模实验的结果做了对比 ,其雷诺数 Re为 10 70 0。

The prediction and estimation of wave characteristics are described by using the third generation spectral numerical wave model SWAN (Simulating Wave Nearshore). Two regions are selected for numerical simulation, the larger area 85°E~100°E, 8°N~22°N of grid 181×169 and a spatial resolution of 0.05′×0.05′ is calculated firstly and then the smaller area 94°E~98°E, 15°N~18°N of grid 49×37 with size 0.05′× 0.05′ is chosen for nested area which is included in the first one. The Port of Yangon, the principal trading...

The prediction and estimation of wave characteristics are described by using the third generation spectral numerical wave model SWAN (Simulating Wave Nearshore). Two regions are selected for numerical simulation, the larger area 85°E~100°E, 8°N~22°N of grid 181×169 and a spatial resolution of 0.05′×0.05′ is calculated firstly and then the smaller area 94°E~98°E, 15°N~18°N of grid 49×37 with size 0.05′× 0.05′ is chosen for nested area which is included in the first one. The Port of Yangon, the principal trading centre of Myanmar, saturates in the nested area. The larger area SWAN run offered boundary conditions for smaller area computation.

通过第3代谱数值波浪模型(Simulating Wave Nearshore, SWAN)预测和估计波浪特性.数值模拟选取2个区域,首先计算85°E ~100°E, 8°N~22°N的大区域,网格数181×169,精度为0.05′×0.05′,然后计算94°E ~98°E, 15°N~18°N的小区域,网格数为49×37,精度为0.05′×0.05′,后者嵌套在前者中.仰光港作为缅甸主要的贸易中心,位于嵌套区域.大区域的SWAN运行结果为小区域计算提供边界条件.

 
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