管线渗漏源差异对砂土地面塌陷影响的量化分析OA
Quantitative analysis of pipeline leakage conditions on ground collapse in sandy soils
地面塌陷事故不仅严重阻碍城市高质量发展,更直接威胁人们的生命财产安全,地下管线破损是诱发此类事故的主要原因.针对中国广州市的砂土地层特征,采用室内试验方法,模拟了管线渗漏引发地下空洞及地面塌陷的全过程,探究管线埋藏深度、破损尺寸和供水流速对土体侵蚀过程的影响.试验结果表明:地下管线破损后,水体向外渗漏并侵蚀管周土体,随着土体颗粒流失,逐渐在地下形成拱形空洞并不断扩大,直至土拱结构无法承受自身重量及上部荷载而发生坍塌,最终形成沙漏形状的侵蚀坑;增大管线埋深、减小破损口尺寸、降低管内供水流速,均可有效缩减塌陷规模,缩短地下空洞及侵蚀坑的形成时间,降低地面塌陷的危险程度.研究成果可为城市地面塌陷的预防、治理及相关工程实践提供理论参考与技术支撑.
Ground collapse poses a significant challenge to urban infrastructure safety and sustainable development,often resulting in severe economic losses and threats to public safety.Damage to underground pipelines is recognized as one of the primary triggers of such failures.Focusing on sandy soil conditions in Guangzhou,a series of laboratory model tests were conducted to simulate the full evolution process of subsurface cavity formation and subsequent ground collapse induced by pipeline leakage.The effects of key factors,including pipeline burial depth,defect size and internal flow velocity,on the soil erosion process were systematically investigated.The results show that leakage from damaged pipelines induces outward seepage flow,leading to progressive erosion of surrounding soil and particle migration.This process results in the gradual formation of arch-shaped underground cavities,which continuously expand with ongoing soil loss.Collapse occurs when the soil arch can no longer sustain its self-weight and the overlying load,ultimately forming characteristic hourglass-shaped erosion cavity.Parametric analysis shows that increasing burial depth,reducing defect size and lowering the flow velocity can effectively decrease the scale of ground collapse and shorten the evolution time of subsurface cavities,thereby mitigating collapse risk.The findings provide a quantitative basis for understanding the mechanisms of pipeline leakage-induced ground collapse and offer theoretical guidance and technical support for the prevention and mitigation of urban subsidence hazards.
阮春喜;朱苗苗;王一兆;高燕
广州市交通运输局,广东 广州 510630南京大学地球科学与工程学院,江苏 南京 210023广州地铁设计研究院股份有限公司,广东 广州 510010中山大学地球科学与工程学院,广东 珠海 510082
资源环境
道路工程管线渗漏地面塌陷侵蚀过程塌陷规模模型试验砂土地层塌陷影响因素
road engineeringpipeline leakageground collapseerosion processcollapse scalemodel experimentssand soil layersinfluence factors of collapse
《深圳大学学报(理工版)》 2026 (3)
290-298,9
Natural Science Foundation of Guangdong Province(2018A0303130154)Research Project of Guangzhou Metro Design&Research Institute Co.Ltd.(20231220-0002) 广东省自然科学基金资助项目(2018A0303130154)广州地铁设计研究院股份有限公司资助项目(20231220-0002)
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