NUMERICAL MODELING OF TURBULENT SURFACE WAVE MOTION USING A COUPLED BOUNDARY ELEMENT-FINITE DIFFERENCE TECHNIQUE

机译：耦合边界元-有限差分技术对湍流表面波运动的数值模拟

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In this paper an effective numerical technique is presented to model turbulent motion of a standing surface wave in a tank. The equations of motion for turbulent boundary layers at the solid surfaces are coupled with the potential flow in the bulk of the fluid, and a mixed BEM-finite difference technique is used to obtain the wave and boundary layer characteristics. A mixing-length theory is used for turbulence modeling. The results are compared with previous experimental data. Although the technique is presented for a standing surface wave, it can be easily applied to other free surface problems.

机译：在本文中，提出了一种有效的数值技术来模拟坦克中立面波的湍流运动。固体表面湍流边界层的运动方程与大量流体中的势流耦合，并且使用混合BEM有限差分技术来获得波动层和边界层的特征。混合长度理论用于湍流建模。将结果与先前的实验数据进行比较。尽管该技术是针对驻表面波提出的，但它可以轻松地应用于其他自由表面问题。

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《ASME Fluids Engineering Division summer conference;FEDSM2008》|2009年|1025-1029|共5页
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Mirmosadegh Jamali;
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surface wave; turbulence; boundary element method; standing wave; finite difference; boundary layer;

机译：表面波湍流边界元法驻波有限差异边界层;

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3. Turbulent Mixing due to Surface Waves Indicated by Remote Sensing of Suspended Particulate Matter and Its Implementation into Coupled Modeling of Waves,Turbulence, and Circulation [J] . Andrey Pleskachevsky, Mikhail Dobrynin, Alexander V. Babanin, Journal of Physical Oceanography . 2011,第4期

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4. NUMERICAL MODELING OF TURBULENT SURFACE WAVE MOTION USING A COUPLED BOUNDARY ELEMENT-FINITE DIFFERENCE TECHNIQUE [C] . ASME Fluids Engineering Division conference . 2009

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5. Interaction of a turbulent wind with ocean surface waves-numerical modeling. [D] . Liao, Ying-Po. 2016

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6. Numerical study of acoustophoretic motion of particles in a PDMS microchannel driven by surface acoustic waves [O] . Nitesh Nama, Rune Barnkob, Zhangming Mao, -1

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7. A numerical model of the turbulent boundary layer beneath surface waves and tides [O] . King H.L., Davies A.G., Soulsby R.L. 1985

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8. Numerical Model of the Turbulent Boundary Layer Beneath Surface Waves and Tides [R] . King, H. L., Davies, A. G., Soulsby, R. L. 1985

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NUMERICAL MODELING OF TURBULENT SURFACE WAVE MOTION USING A COUPLED BOUNDARY ELEMENT-FINITE DIFFERENCE TECHNIQUE

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