基于高分子材质的L型城市应急防洪屏受力分析

Analysis of the stress on L-shaped urban emergency flood control screens based on polymer materials

  • 摘要: 国内关于高分子材质城市内涝应急防御装备的研究较为少见。采用水槽试验与流固耦合数值仿真相结合的方法,对城市应急防洪屏(以下简称“防洪屏”)的结构受力特性展开研究。结果表明,数值仿真模拟与试验结果吻合较好。随着水深和流速的增大,防洪屏的应力和变形逐渐增大,最大应力位于防洪屏的踵部,最大变形位于挡水面顶部两侧。防洪屏的结构受力系数随着来流弗劳德数的增大快速衰减,当弗劳德数大于0.15后,结构受力系数趋于定值;相对于惯性力,防洪屏承受最大应力的影响因素主要是重力。研究结果可为防洪屏的进一步优化设计提供参考。

     

    Abstract: Research on polymer-based urban emergency flood control equipment is relatively rare in China. In this study, a combination of water tank experiments and fluid-structure interaction numerical simulations was used to investigate the stress characteristics of urban emergency flood control screens (referred to as “flood control screens” hereafter). The results show good agreement between the numerical simulation and experimental results. As the water depth and flow velocity increase, the stress and deformation of the flood control screens gradually increase. The maximum stress is located at the heel of the flood control screens, while the maximum deformation is observed at the top sides of the water-blocking surface. The stress coefficient of the flood control screens decreases rapidly with the increase of the incoming flow Froude number, and it tends to a constant value when the Froude number exceeds 0.15. Gravity has a greater influence on the maximum stress of the flood control screens compared to inertial forces. The findings of this study can provide a reference for the further optimization design of flood control screens.

     

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