Hydrodynamic pressures on a stepped spillway with an aerator system subjected to different air flow rates

Pub Date : 2023-07-28 DOI:10.1590/2318-0331.282320230013
Rute Ferla, C. K. Novakoski, G. Castiglio, M. Dai Prá, M. Marques, E. D. Teixeira
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Abstract

ABSTRACT Aerator systems promote additional insertion of air into the flow and can reduce the risk of cavitation and consequent damage to hydraulic structures. This work analyzes the hydrodynamic pressures on the steps of a physical model (with a chute inclination of 53.13º) subjected to different aeration conditions. When comparing the results with different air intake coefficients in the flow, it was concluded that the incorporation of air does not change in a generalized way all the statistical parameters associated with hydrodynamic pressures on the steps. However, with the insertion of air in the flow, there was an increase in the minimum pressure values measured in the region of the jet impact and downstream. Empirical equations for predicting the distribution of pressures on the steps under induced aeration conditions were proposed, valid for structures whose ratio between the height of the deflector and the height of the steps is equal to 0.167, with an aerator system installed at the beginning of the stepped chute.
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带曝气系统的阶梯式溢洪道在不同气流速率下的动水压力
增氧机系统促进空气的额外插入到流动中,可以减少空化的风险和随之而来的对水工结构的破坏。本文分析了不同通气条件下物理模型(斜槽倾角为53.13º)台阶上的动水压力。通过对不同进气系数下的结果进行比较,得出了空气的加入不会广义地改变台阶上与动水压力相关的所有统计参数的结论。然而,随着气流中空气的插入,在射流撞击区域和下游测量到的最小压力值有所增加。建立了诱导曝气条件下台阶上压力分布的经验公式,该公式适用于偏转板高度与台阶高度之比为0.167、在梯级溜槽开始处安装曝气系统的结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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