隧道穿越断裂带时涌水过程的自然电位响应试验研究

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摘要分析地下水流场变化特征对于涌突水灾害监测和预警具有重要意义。通过室内试验，采用自然电位法对隧道穿越断裂带时的涌水过程进行监测，获得自然电位的变化过程，并统计自然电位值与涌水量的相关关系，探讨隧道涌水过程的自然电位变化机理，最后采用数值模拟进行验证。研究结果表明，隧道涌水过程中，越靠近涌水断面，自然电位变化越显著；自然电位变化速率对涌水过程响应敏感，能够反映渗流速度变化情况；自然电位与涌水量存在显著的负相关关系，即涌水量越大，自然电位值越小；自然电位信号对隧道涌水部位和涌水量均有良好的响应。

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	张行1 田权1 陈亮青1 黄民尧2 凌成鹏2

关键词：隧道断裂带涌水自然电位室内试验

Abstract： Analyzing the variation characteristics of groundwater flow field is crucial for monitoring and early warning of water inrush disasters. This study employed self-potential (SP) method in laboratory experiments to investigate water inrush processes during tunnel excavation through fault zones. The temporal evolution of SP signals was recorded, and the correlation between SP values and water inflow rates was statistically analyzed to elucidate the SP response mechanism during water inrush events, with numerical simulations conducted for validation. Key findings include: (1) SP variations become more pronounced closer to the water inrush section; (2) The rate of SP change exhibits high sensitivity to water inrush processes, effectively reflecting seepage velocity variations; (3) A significant negative correlation exists between SP values and water inflow rates (increased inflow corresponds to decreased SP); (4) SP signals demonstrate excellent response to both the location and magnitude of tunnel water inrush.

Keywords： Tunnel engineering, Fault zone, Water inrush, Self-potential (SP), Laboratory experiment

作者简介: 张行（1987-），男，硕士，高级工程师，主要从事岩土工程勘察与地质灾害防治设计工作，E-mail：544393327@qq.com. 通讯作者：凌成鹏（1983-），男，博士，副教授，主要从事隧道涌突水防治、环境水文地质领域的研究工作，E-mail：lingcp2015@163.com.

引用本文:

张行1 田权1 陈亮青1 黄民尧2 凌成鹏2 .隧道穿越断裂带时涌水过程的自然电位响应试验研究[J] 现代隧道技术, 2025,V62(3): 201-208

ZHANG Hang1 TIAN Quan1 CHEN Liangqing1 HUANG Minyao2 LING Chengpeng2 .Experimental Study on Self-potential Response during Water Inrush Processes in Tunnels Crossing Fault Zones[J] MODERN TUNNELLING TECHNOLOGY, 2025,V62(3): 201-208

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