Experimental Study of Scouring and Deposition Characteristics of Riprap at Embankment Toe Due to Overflow

Geotechnics Pub Date : 2024-07-16 DOI:10.3390/geotechnics4030040

Abu Raihan Mohammad Al-Biruni, Md Masum Billah, Junji Yagisawa

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Abstract

In this study, the effects of the grain size and gradation of riprap, the overtopping flow depth, and the downstream slope of the embankment on the scouring and deposition characteristics at the downstream toe of the embankment were investigated. For the experiment, three different downstream slopes (1:2, 1:3, and 1:4), three different overflow depths (1, 2, and 3 cm), and three different sizes of riprap particles (d50 of 16.41 mm, 8.48 mm, and 3.39 mm, herein referred to as coarse gravel, medium gravel, and granule, respectively) were used in the laboratory. The experimental results demonstrated that the scour depth and deposition height increased with increasing energy head for each downstream slope condition. Among the three particle sizes, coarse gravel shows the lowest scour depth and the highest deposition height. For the 1:2 slope, the coarse gravel particle size was 62% and 75% less resistant to scouring than the medium gravel and granule particles, respectively. For the 1:3 slope case, this was 31% and 46%, and for the 1:4 slope case, this was 39% and 49% less than the medium gravel and granule size particles, respectively.

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堤顶护坡因溢流而产生的冲刷和沉积特性的实验研究

本研究探讨了护坡的粒径和级配、溢流深度以及堤坝下游坡度对堤坝下游坡脚冲刷和沉积特性的影响。在实验中，实验室使用了三种不同的下游坡度（1:2、1:3 和 1:4）、三种不同的溢流深度（1、2 和 3 厘米）和三种不同大小的护坡颗粒（d50 分别为 16.41 毫米、8.48 毫米和 3.39 毫米，以下分别称为粗砾石、中砾石和颗粒）。实验结果表明，在各种下游坡度条件下，冲刷深度和沉积高度随着能量水头的增加而增加。在三种粒径中，粗砾石的冲刷深度最小，沉积高度最高。在坡度为 1:2 的情况下，粗粒砾石的抗冲刷能力分别比中粒砾石和颗粒砾石低 62% 和 75%。在坡度为 1:3 的情况下，粗砾石颗粒的抗冲刷能力比中砾石颗粒和颗粒颗粒分别低 31% 和 46%，而在坡度为 1:4 的情况下，粗砾石颗粒的抗冲刷能力比中砾石颗粒和颗粒颗粒分别低 39% 和 49%。

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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Geotechnics

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