高密度电阻率法单极——偶极装置探测石灰岩地区地下溶洞
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摘要
高密度电阻率测深法装置颇多,对称四极测深法是常用的。但在探测的靶区不具备对称四极装置工作的条件下,用单极—偶极装置测深也是很普遍。单极—偶极装置探测非层状地质体的视电阻率异常具有个性,认识它十分必要。探测层状地层结构和形态,测深法的各种装置的异常特征是一致的,资料解释也相近。但对低阻溶洞体,单极—偶极装置测深的异常特征与对称四级装置存在差异,资料解释也不相同。通过实际勘查工作,单极—偶极装置测深获得的低阻洞体异常,钻孔不能定在异常中心部位,而应定在单极一侧的低阻异常梯度带附近。实际探测和钻探结果验证了这一结论。
The high density resistivity sounding method has many arrays,and the symmetrical four-pole sounding is commonly used.However,there is no symmetrical four-pole in the target area,it is common to use pole-dipole devices for sounding.It is necessary to understand the characteristics of apparent resistivity anomalies of non-stratified geological bodies detected by pole-dipole devices.The structure and morphology of laminar formation are detected,the anomalous characteristics of various devices in the sounding methodare consistent and data interpretation is similar.But for the low resistance cavern,the anomalous characteristics of the pole-dipole device sounding are different from those of the Schlumberger electrode array,and the data interpretation is different.Through the actual exploration work,the abnormality of the low resistance hole body obtained by the pole-dipole sounding is not fixed at the center of the anomaly,but it should be located near the low resistivity abnormal gradient zone on the pole side.Actual findings and drilling results support this conclusion.
The high density resistivity sounding method has many arrays,and the symmetrical four-pole sounding is commonly used.However,there is no symmetrical four-pole in the target area,it is common to use pole-dipole devices for sounding.It is necessary to understand the characteristics of apparent resistivity anomalies of non-stratified geological bodies detected by pole-dipole devices.The structure and morphology of laminar formation are detected,the anomalous characteristics of various devices in the sounding methodare consistent and data interpretation is similar.But for the low resistance cavern,the anomalous characteristics of the pole-dipole device sounding are different from those of the Schlumberger electrode array,and the data interpretation is different.Through the actual exploration work,the abnormality of the low resistance hole body obtained by the pole-dipole sounding is not fixed at the center of the anomaly,but it should be located near the low resistivity abnormal gradient zone on the pole side.Actual findings and drilling results support this conclusion.
引文
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[4]唐荣富,李继贤,秦荣娥,等.改进的三极装置激电测深勘查微细侵染型金矿的应用效果[J].工程地球物理学报,2009,6(3):305-310.
[5]沈阳,吴双红,马磊,等.三极电测深法在黄土洞穴探测中的应用[J].工程地球物理学报,2013,10(2):186-189.
[6]黄俊革,阮百尧,王家林,等.钻井—地表电极联合电阻率观测装置的异常特征研究[J].地球物理学报,2009,52(5):1 348-1 362.
[7]李金铭,魏文博,陈本池,等.固定点源测深法定量解释研究[J].物探与化探,1997,21(3):187-197.
[8]郑冰,李柳德.高密度电法不同装置的探测效果对比[J].工程地球物理学报,2015,12(1):33-39.
[9]赵荣春,吕玉增,凌嘉宣,等.激电中梯和对称四级测深在广西铅锌矿区的应用[J].工程地球物理学报,2016,13(3):271-276.
[2]陈福集,刘煜洲.某些非水平层状形体上对称四级测深视电阻率异常的特征与解释方法[A]//电法勘探文集[M].北京:地质出版社,1985:87-100.
[3]沈林群,张国鸿.激电三极测深在寻找陡立含水破碎带中的应用[J].工程地球物理学报,2017,14(4):415-420.
[4]唐荣富,李继贤,秦荣娥,等.改进的三极装置激电测深勘查微细侵染型金矿的应用效果[J].工程地球物理学报,2009,6(3):305-310.
[5]沈阳,吴双红,马磊,等.三极电测深法在黄土洞穴探测中的应用[J].工程地球物理学报,2013,10(2):186-189.
[6]黄俊革,阮百尧,王家林,等.钻井—地表电极联合电阻率观测装置的异常特征研究[J].地球物理学报,2009,52(5):1 348-1 362.
[7]李金铭,魏文博,陈本池,等.固定点源测深法定量解释研究[J].物探与化探,1997,21(3):187-197.
[8]郑冰,李柳德.高密度电法不同装置的探测效果对比[J].工程地球物理学报,2015,12(1):33-39.
[9]赵荣春,吕玉增,凌嘉宣,等.激电中梯和对称四级测深在广西铅锌矿区的应用[J].工程地球物理学报,2016,13(3):271-276.
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