对埋地管道泄漏造成的砂土路基渗流侵蚀的评估

Wenxin Chen, Yekai Chen, Zhihang Su, Liyuan Zhao, Xianghua Chen
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摘要

埋设管道的渗漏会导致路基土壤含水量增加和地下水位上升,从而导致土壤松动、侵蚀,最终形成隐蔽空洞和路面塌陷。本研究提出了一种离散元素法(DEM),并利用模型实验中的空洞数据验证了该方法的准确性。它研究了管道渗漏导致渗流侵蚀的机理,并分析了土拱效应的发展。此外,还讨论了砂空隙率和颗粒大小对砂土渗流侵蚀的影响。结果表明,侵蚀面积主要受空隙率和颗粒大小的影响。与 0.1 毫米至 5 毫米和 2 毫米至 5 毫米的土壤颗粒相比,粒径在 0.1 毫米至 2 毫米之间的土壤颗粒产生的侵蚀和松动面积大约大 40%。所提出的模型可精确分析渗流侵蚀的发展过程和程度,从而有助于根据路基土壤类型和地下水位等关键因素的动态变化预测潜在的路面空洞区域。
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Evaluation of sand subgrade seepage erosion caused by buried pipeline leakage
Leakage from buried pipelines can lead to an increase in the water content of the subgrade soils and a rise in the water table, leading to soil loosening, erosion, and ultimately the formation of hidden voids and roadway collapses. This study presents a Discrete Element Method (DEM) and validates its accuracy by utilizing cavity data from model experiments. It investigates the mechanism of seepage erosion resulting from pipe leakage and analyzes the development of the soil arch effect. Furthermore, it discusses the influence of sand void ratio and particle size on sand seepage erosion. The results indicate that the erosion area is primarily affected by the void ratio and particle size. In comparison to soil particles ranging from 0.1 mm to 5 mm and 2 mm to 5 mm, those with sizes between 0.1 mm and 2 mm generate areas of erosion and loosening that are approximately 40% larger. The proposed model offers a precise analysis of the developmental process and the extent of seepage erosion, thereby contributing to the prediction of potential road cavity areas based on dynamic changes in key factors such as subgrade soil type and groundwater level.
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