中文

Integral methods for shallow free-surface flows with separation

流体动力学 2007-05-23 v1 斑图形成与孤子

摘要

We study laminar thin film flows with large distortions in the free surface using the method of averaging across the flow. Two concrete problems are studied: the circular hydraulic jump and the flow down an inclined plane. For the circular hydraulic jump our method is able to handle an internal eddy and separated flow. Assuming a variable radial velocity profile like in Karman-Pohlhausen's method, we obtain a system of two ordinary differential equations for stationary states that can smoothly go through the jump where previous studies encountered a singularity. Solutions of the system are in good agreement with experiments. For the flow down an inclined plane we take a similar approach and derive a simple model in which the velocity profile is not restricted to a parabolic or self-similar form. Two types of solutions with large surface distortions are found: solitary, kink-like propagating fronts, obtained when the flow rate is suddenly changed, and stationary jumps, obtained, e.g., behind a sluice gate. We then include time-dependence in the model to study stability of these waves. This allows us to distinguish between sub- and supercritical flows by calculating dispersion relations for wavelengths of the order of the width of the layer.

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引用

@article{arxiv.physics/0008219,
  title  = {Integral methods for shallow free-surface flows with separation},
  author = {Shinya Watanabe and Vachtang Putkaradze and Tomas Bohr},
  journal= {arXiv preprint arXiv:physics/0008219},
  year   = {2007}
}

备注

46 pages, latex 2.09, 10 PS figures included with psfig