Local Scour of Highway Cross Drainage Structures

University of Khartoum Engineering Journal Pub Date : 2022-10-31 DOI:10.53332/kuej.v5i1.1006

M. Akode Osman, Zeinab Mohamed Adam

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Abstract

In this paper methods for determination of maximum local scour depth and eroded material volume downstream of highway drainage structures were developed. Severe local scour leads to undermining followed by collapsing of the drainage structure. The analysis method is based on integrating a new technique of improved drainage structure outlet geometry, jet hydraulic characteristics and soil properties. The jet velocity, induced shear stress, critical shear resistance to erosion and particle size are the main factors that control the erosion process downstream of a drainage structure. The study is of experimental and theoretical nature. The developed mathematical model was calibrated using collected field data in addition to laboratory tests. The produced scour holes were plotted for each laboratory run and the scour hole depth, width and length were measured. A semi- empirical relation has been developed for predicting the depth of local scour hole. It is based on Densimetric Froude number. It is found that the semicircular apron gives less scour depth and width when compared to the linear front apron. The comparison of the model outputs and field study is found of a good agreement. The model is recommended for engineering design of highway drainage structures located on streams of sandy bed.

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公路交叉排水结构的局部冲刷

本文研究了公路排水结构下游最大局部冲刷深度和侵蚀物体积的确定方法。严重的局部冲刷导致排水结构破坏和坍塌。该分析方法是基于将改进排水结构、出口几何形状、射流水力特性和土壤特性相结合的新技术。射流速度、诱导剪切应力、冲蚀临界剪切阻力和粒径是控制排水结构下游冲蚀过程的主要因素。这项研究是实验性和理论性的。除了实验室测试外，还使用收集的现场数据对所开发的数学模型进行了校准。绘制了每次实验室运行产生的冲刷孔，并测量了冲刷孔的深度、宽度和长度。建立了预测局部冲刷孔深度的半经验关系式。它是基于密度弗劳德数。研究结果表明，半圆形围裙的冲刷深度和冲刷宽度均小于线性前围裙。模型计算结果与现场研究结果比较，结果吻合较好。该模型可用于砂质河床上的公路排水结构的工程设计。

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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University of Khartoum Engineering Journal

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