音频大地电磁与声波测井在隧道工程勘察中的应用——以闽东某隧道为例  

作　　者：代一龙 马欢 李泽扬 李阳 吕则潮 傅庆凯 DAI Yi-Long;MA Huan;LI Ze-Yang;LI Yang;LU Ze-Chao;FU Qing-Kai(Institute of Disaster Prevention,Sanhe 065201,Hebei,China;Hebei Key Laboratory of Earthquake Dynamics,Sanhe 065201,Hebei,China;Fujian Provincial Communications Planning and Design Institute Co.,Ltd,Fuzhou 350004,Fujian,China)

机构地区：[1]防灾科技学院,河北三河065201 [2]河北省地震动力学重点实验室,河北三河065201 [3]福建省交通规划设计院有限公司,福建福州350004

出　　处：《华南地质》2024年第4期804-811,共8页South China Geology

基　　金：中央高校科研业务费专项(ZY20240305);廊坊市青年拔尖人才项目(XY202304)。

摘　　要：随着隧道工程规模的不断扩大和复杂性的增加,尤其是在复杂的地质条件下,传统的勘察方法已经难以满足现代工程的需求。音频大地电磁法探测范围广、深度大,但地层分辨率相对较低;声波测井虽探测深度和范围有限,却能提供高分辨率的井周围声学数据,弥补了音频大地电磁法在分辨率上的不足;两者结合不仅提高了地层信息的探测精度,还能有效圈定重点区域,指导声波测井的精细测量,为隧道工程勘察提供了高效、全面的解决方案。本文将音频大地电磁测深法和声波测井应用于福建省某隧道工程勘察中,较为准确地探测了地下岩层的电阻率和波速分布。结果显示:P4至P14段电阻率较低,围岩局部较破碎,且埋深较浅,岩石风化比较强,需注意风化层出露后松散塌落;P26至P34、P41至P47段存在两个低阻异常,可能存在含水层,应注意排水重填,以防涌水;P34至P41段埋深最大,电阻率最高,围岩挤压紧密,建议打应力释放孔以释放能量,便于施工。本研究表明将音频大地电磁与声波测井方法结合应用,可为隧道工程勘察提供新的思路。As the scale and complexity of tunnel engineering continue to expand,particularly under complex geological conditions,traditional survey methods have become hard to meet modern engineering needs.The audio magnetotelluric method offers extensive coverage and significant depth but has relatively low stratigraphic resolution.In contrast,acoustic logging,while limited in depth and range,provides high-resolution acoustic data around the borehole,compensating for the shortcomings of the audio magnetotelluric method in resolution.The combination of these two methods not only enhances the accuracy of stratigraphic information but also effectively delineates key areas,guiding precise measurements in acoustic logging,thus offering an efficient and comprehensive solution for tunnel engineering surveys.This study applies audio magnetotelluric sounding and acoustic logging to a tunnel project survey in Fujian Province,accurately detecting the resistivity and velocity distribution of underground rock layers.The results indicate that sections P4 to P14 exhibit relatively low resistivity,with locally fractured surrounding rock and shallow burial depth,where relatively strong rock weathering necessitates caution is needed to prevent loose collapse upon exposure of the weathered layer.Sections P26 to P34 and P41 to P47 show two low-resistivity anomalies,possibly indicating the presence of aquifers,requiring attention to drainage and refilling to prevent water inflow.Section P34 to P41 has the greatest burial depth and highest resistivity,with tightly compressed surrounding rock,and it is suggested that the drilling of stress relief holes can release energy and facilitate construction.This research demonstrates that the combined application of audio magnetotelluric and acoustic logging methods can provide new insights for tunnel engineering surveys.

关 键 词：音频大地电磁测深 声波测井 隧道工程勘察 地质灾害防治 

分 类 号：P3[天文地球—地球物理学]