Effect of Gravel Size and Weir Height on Flow Properties of Gabions

Journal of University of Babylon for Engineering Sciences Pub Date : 2019-06-10 DOI:10.29196/JUBES.V27I2.2340

Shaker A. Jalil, Sarhan A. Sarhan, Bshkoj S. Hussein, Jihan M. Qasim

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引用次数: 2

Abstract

The variation between flow depth generated in front of gabion barrier and flow rate has been studied in open laboratory flume. Flow profiles have been observed for each of "Transition Flow" and "Overflow" regimes. Effects of gabion height and material coarseness on the upstream flow depth are studied by testing four different gabion heights and four different medium aggregate sizes. The analysis of experimental results showed that the relative decrease in flow depth varies between 38% and 17% for "Through Flow" type when material coarseness and discharge increase. In "Transition Flow" regime, increasing material coarseness and discharge causes an average decreases in relative flow depth of 7.6% and 4.4% for gabion heights 15cm and 30cm, respectively. Gabion begins to operate as an overflow weir when the average water depth to the gabion height (H/P) is 1.19. While the overall average increase in discharge relative to solid weir is 15%. Prediction relationships for flow depth upstream the gabion for each of the three flow regimes is suggested. Also, dimensionless relation to predict discharge coefficient are proposed with good accuracy.

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碎石粒度和堰高对格宾笼流动特性的影响

在开放式实验室水槽中，研究了格宾笼屏障前流深随流量的变化规律。观察了“过渡流”和“溢出”两种状态的流动曲线。通过对4种不同格宾笼高度和4种不同中骨料粒度的试验，研究了格宾笼高度和物料粗度对上游水流深度的影响。实验结果分析表明，随着物料粗度和流量的增加，“直通流”型的相对流深下降幅度在38% ~ 17%之间。在“过渡流动”状态下，当格宾笼高度为15cm和30cm时，物料粗度和流量的增加导致相对流动深度平均下降7.6%和4.4%。当平均水深与格宾笼高度(H/P)为1.19时，格宾笼开始作为溢流堰运行。与固体堰相比，整体流量平均增加15%。提出了格宾笼上游三种流型的流深预测关系。并提出了预测流量系数的无因次关系式，预测精度较高。

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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Journal of University of Babylon for Engineering Sciences

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