掠流状态下不同形式阶梯迷宫溢洪道流动特性的三维研究

IF 2.1 4区 环境科学与生态学 Q2 ENGINEERING, CIVIL
Dana Ghaderi, H. Ebrahimnezhadian, M. Mollazadeh
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引用次数: 0

摘要

提高了溢洪道的性能,结合迷宫溢洪道是一个有趣的话题。本文提出了几种阶梯式溢洪道的迷宫形态。利用先前物理模型的结果对数值模型进行了验证。之后,三种配置包括:传统的加强,使用OpenFOAM trapezoidal-labyrinth, rectangular-labyrinth建模模型浏览流态。模拟解决InterFOAM RNG k -ε湍流模型。结果表明,当dc/h = 1.45 (dc范围为8 ~ 14.5 cm)时,梯形和矩形阶梯式迷宫溢洪道的消能比传统阶梯式溢洪道分别增加34.7%和21.1%。梯形迷宫和矩形迷宫的末端流速分别降低了50.5%和31.1%。此外,与矩形阶梯迷宫结构相比,梯形结构的流速降低了14.7%。结果表明,最小压力垂直脸的步骤发生在他们的上半部分和矩形配置导致的最高数量的负压。湍流动能,特别是在梯形构型中,向下游方向增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A three-dimensional study of flow characteristics over different forms of stepped–labyrinth spillways in the skimming flow regime
To improve the performance of stepped spillways, their combination with labyrinth spillways is an interesting topic. In this study, several labyrinth configurations of stepped spillways were presented. Validation of the numerical model was done using the results of the previous physical models. After that, three configurations including: conventional stepped, trapezoidal-labyrinth, and rectangular-labyrinth were modeled using the OpenFOAM model for the skimming flow regime. For simulation, InterFOAM solver and RNG k–ε turbulence model were used. The results showed an increase of 34.7 and 21.1% in energy dissipation in the trapezoidal and rectangular stepped–labyrinth spillways compared to the conventional stepped type, for dc/h = 1.45 (the range of dc is between 8 and 14.5 cm). The flow velocity in the end step of the trapezoidal- and rectangular-labyrinth configuration is reduced by 50.5 and 31.1%, respectively. Furthermore, in the trapezoidal configuration, a 14.7% reduction in flow velocity has been achieved compared to the rectangular stepped–labyrinth configuration. The results showed that the minimum pressure on the vertical faces of the steps occurred in their upper half and the rectangular configuration has resulted in the highest amount of negative pressure. The turbulence kinetic energy, especially in trapezoidal configuration, has increased toward the downstream.
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来源期刊
CiteScore
4.10
自引率
21.10%
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