钻孔雷达反射成像在岩溶发育场地探测中的应用
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摘要
我国岩溶区分布广泛,且复杂的岩溶现象对建筑安全、地基稳定以及场地勘察有较大影响。钻孔雷达作为一种井中地球物理方法,可以利用地下介质的物性差异查明岩溶发育的情况,弥补常规勘察手段在探测岩溶发育场地中存在的不足。依据钻孔雷达单孔反射信号的同相轴特征、反射波首波走时和反射波的衰减等特征,可判断钻孔周边未揭露溶洞和裂隙的分布,确定钻探揭露溶洞的水平方向直径以及岩石完整性,从而达到查明各种岩溶形态的规模、空间密度及其分布规律的目的,为工民建各项工程建设的设计和施工提供准确详尽的地质资料,确保工程的稳定性。
Karst area are widely distributed in China, and complex karst phenomena have great influence on the safety of building site and foundation stability and site survey. As a geophysical method in the well, borehole radar can make use of the difference of physical properties of underground media to find out the situation of karst development, and make up for the shortcomings of the conventional survey methods in detecting karst development sites. The characteristics of the homogenous axis of the single-hole radar reflection signal, the travel time of first arrival wave of the reflected wave and the attenuation of the reflection wave, can be used to determine the distribution of uncovered karst caves and fissures around the borehole. This technique method can also be applied to identifying the diameter of karst caves in horizontal direction and intact rocks surrounding the caves. Borehole radar detection can find out the size, density and spatial distribution of various karst forms, so as to provide accurate and detailed geological data for the design and construction of various engineering construction projects, and to ensure the stability of the projects.
Karst area are widely distributed in China, and complex karst phenomena have great influence on the safety of building site and foundation stability and site survey. As a geophysical method in the well, borehole radar can make use of the difference of physical properties of underground media to find out the situation of karst development, and make up for the shortcomings of the conventional survey methods in detecting karst development sites. The characteristics of the homogenous axis of the single-hole radar reflection signal, the travel time of first arrival wave of the reflected wave and the attenuation of the reflection wave, can be used to determine the distribution of uncovered karst caves and fissures around the borehole. This technique method can also be applied to identifying the diameter of karst caves in horizontal direction and intact rocks surrounding the caves. Borehole radar detection can find out the size, density and spatial distribution of various karst forms, so as to provide accurate and detailed geological data for the design and construction of various engineering construction projects, and to ensure the stability of the projects.
引文
[1] 李大通,罗雁.中国碳酸盐岩分布面积测量[J].中国岩溶,1983(2):147-150.
[2] 陈建胜,陈从新.钻孔雷达技术的发展和现状[J].地球物理学进展,2008,23(5):1634-1640.
[3] 刘四新,曾昭发,徐波.钻孔雷达探测地下裂缝[J].吉林大学学报(地球科学版),2005(s1):128-131.
[4] 李华,王东辉,焦彦杰,等.钻孔地质雷达技术在水文与工程地质中的应用分析[J].工程勘察,2011,39(6):85-89.
[5] 黄家会,宋雷,陈先德,等.地下深部灰岩岩石特性的单孔雷达反射研究[J].水文地质工程地质,1999(6):57-59.
[6] Giroux B,Gloaguen E,Chouteau M.Geotechnical application of borehole GPR - a case history[C]// Tenth International Conference on Ground Penetrating Radar.IEEE,2004:249-252.
[7] Kim J H,Park S G,Yi M J,et al.Borehole radar investigations for locating ice ring formed by cryogenic condition in an underground cavern[J].Journal of Applied Geophysics,2007,62(3):204-214.
[8] Olsson O,Falk L,Forslund O,et al.Borehole Radar Applied To The Characterization Of Hydraulically Conductive Fracture Zones In Crystalline Rock1[J].Geophysical Prospecting,2010,40(2):109-142.
[9] 钟声,王川婴,吴立新,等.点状不良地质体钻孔雷达响应特征:围岩及充填效应正演分析[J].岩土力学,2012,33(4):1191-1195.
[10] 谢雄耀,万明浩.复信号分析技术在地质雷达信号处理中的应用[J].物探化探计算技术,2000,22(2):108-112.
[2] 陈建胜,陈从新.钻孔雷达技术的发展和现状[J].地球物理学进展,2008,23(5):1634-1640.
[3] 刘四新,曾昭发,徐波.钻孔雷达探测地下裂缝[J].吉林大学学报(地球科学版),2005(s1):128-131.
[4] 李华,王东辉,焦彦杰,等.钻孔地质雷达技术在水文与工程地质中的应用分析[J].工程勘察,2011,39(6):85-89.
[5] 黄家会,宋雷,陈先德,等.地下深部灰岩岩石特性的单孔雷达反射研究[J].水文地质工程地质,1999(6):57-59.
[6] Giroux B,Gloaguen E,Chouteau M.Geotechnical application of borehole GPR - a case history[C]// Tenth International Conference on Ground Penetrating Radar.IEEE,2004:249-252.
[7] Kim J H,Park S G,Yi M J,et al.Borehole radar investigations for locating ice ring formed by cryogenic condition in an underground cavern[J].Journal of Applied Geophysics,2007,62(3):204-214.
[8] Olsson O,Falk L,Forslund O,et al.Borehole Radar Applied To The Characterization Of Hydraulically Conductive Fracture Zones In Crystalline Rock1[J].Geophysical Prospecting,2010,40(2):109-142.
[9] 钟声,王川婴,吴立新,等.点状不良地质体钻孔雷达响应特征:围岩及充填效应正演分析[J].岩土力学,2012,33(4):1191-1195.
[10] 谢雄耀,万明浩.复信号分析技术在地质雷达信号处理中的应用[J].物探化探计算技术,2000,22(2):108-112.
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