本文对坑的三维分离流动做了低速粘流与无粘流的相互作用计算。
The coupled calculation for the viscous-inviscid interaction of three dimensional separated flow over dents at low speed has been made in the present paper.
本文利用三维积分边界层法并结合流线法决定涡层型流动分离。
A 3d integral boundary layer approach is used and coupled with streamline method for determining vortex-layer-type flow separation.
描述了水力旋流器内部分离介质的三维流动分布特征对分离性能的影响。
A great influence on separation performance was described for three dimensions of flowing distribution characteristics for separated medium inside the hydrocyclone.
水力机械的分离为三维流动,三维流动的侧向压力梯度产生边界层的二次流动。
The separation flow is three dimensional in hydraulic machine. The pressure gradient in cross direction produces secondary flow in boundary layer.
新的效应:交叉流动,侧向扩张,三维分离,统御方程式。
New Effects: Crossflow, Lateral Dilation , 3 D Separation. Governing Equations.
新的效应:交叉流动,侧向扩张,三维分离,统御方程式。
New Effects: Crossflow, Lateral Dilation , 3 D Separation. Governing Equations.
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