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Title
Response characteristics of three-dimensional axial anisotropic media for transient electromagnetic method in underground whole-space
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作者
程久龙黄少华温来福董毅王浩宇
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Author
CHENG Jiulong1 ,HUANG Shaohua2 ,WEN Laifu1 ,DONG Yi1 ,WANG Haoyu1
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单位
中国矿业大学(北京) 地球科学与测绘工程学院中国石油化工股份有限公司石油物探技术研究院
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Organization
1. College of Geoscience and Surveying Engineering,China University of Mining and Technology (Beijing),Beijing 100083,China; 2. SINOPEC Geophysi-cal Research Institute,Nanjing 211103,China
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摘要
研究瞬变电磁场中的电性各向异性问题,可以为各向异性条件下的地下全空间瞬变电磁法资料处理解释工作提供理论指导,对提高瞬变电磁法探测精度具有重要意义。为了研究矿井全空间条件下主轴各向异性介质的瞬变电磁场响应特征,采用改进的交错网格有限差分方法实现了主轴各向异性介质的瞬变电磁场三维正演。将电导率张量加入麦克斯韦方程组,对Yee氏交错网格进行了改进以便于对主轴各向异性介质中的瞬变电磁场进行差分离散处理,形成了全空间三维主轴各向异性有限差分正演算法。在均匀全空间模型中对比各向异性有限差分数值解及均匀全空间解析解,验证了算法的正确性。建立了不同各向异性类型和不同各向异性对称主轴姿态模型,分别计算了其瞬变电磁场响应,最后结合工程探测实例,通过正演模拟分析了不同主轴各向异性介质对瞬变电磁场的影响特征,解释了探测结果存在偏差的原因。研究表明:在矿井超前探测模式下,对于HTI-X介质,各向异性系数的变化对瞬变电磁场的影响不明显,不同各向异性系数条件下的感应电动势曲线差异较小;对于HTI-Y介质和VTI介质,各向异性系数的变化对瞬变电磁场有明显的影响,随着介质各向异性系数增大,介质瞬变电磁场响应不断变小;随着各向异性介质对称主轴方向与探测方向之间夹角的增大,各向异性介质产生的瞬变电磁场响应不断增大,当对称主轴方向与探测方向一致时(HTI-X介质),各向异性介质产生的感应电动势最弱,而对称主轴方向与探测方向垂直时(VTI介质),各向异性介质产生的感应电动势最强;不同类型的主轴各向异性介质具有明显的各向异性瞬变电磁场响应特征。
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Abstract
The study of the electrical anisotropy in the transient electromagnetic field could provide theoretical guid- ance for the data processing and interpretation of the underground full-space transient electromagnetic method under the condition of anisotropy,and it has important guiding significance to improve the detection accuracy of transient electromagnetic method. In order to study the transient electromagnetic field response characteristics of axial anisotrop- ic media in underground whole-space,an improved staggered mesh finite difference method was used to realize a 3D forward modeling of the transient electromagnetic field of axial anisotropic media. The conductivity tensor was added to Maxwell’s equations. Yee’s staggered grid was improved to facilitate the differential discretization of axial anisotropic media’ s transient electromagnetic fields. The whole-space finite difference forward algorithm for axial anisotropic media was developed. The correctness of the algorithm was verified by comparing the anisotropic finite difference nu- merical solution and the uniform whole-space analytical solution in a uniform whole-space model. Finally,combined with actual engineering detection,the influence characteristics of different axial anisotropic media on transient electro- magnetic field were analyzed by forward modeling,and the reasons for the deviation of the detection results were ex- plained. The results show that in the advanced detection mode,the change of anisotropy coefficient of HTI-X medium has no obvious influence on the transient electromagnetic field,the difference of induced electromotive force curves un- der different anisotropic coefficients is very small. For HTI-Y media and VTI media,the change of anisotropy coeffi- cient has a significant impact on the transient electromagnetic field,as the anisotropy coefficient of the medium increa- ses,the transient electromagnetic field response of the medium decreases continuously. With the increase of the angle between the symmetric axis of anisotropic media and the direction of detection,the transient electromagnetic field re- sponse generated by anisotropic media increases continuously. When the symmetric axis of anisotropic medium is con- sistent with the detection direction (HTI-X medium),the induced electromotive force generated by anisotropic medium is the weakest. When the symmetric axis is perpendicular to the detection direction (VTI medium),the induced elec- tromotive force generated by anisotropic medium is the strongest. Different types of axial anisotropic media have obvi- ous anisotropic transient electromagnetic field response characteristics.
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关键词
主轴各向异性响应特征矿井全空间瞬变电磁场三维数值模拟
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KeyWords
axial anisotropy;response characteristic;underground whole-space;transient electromagnetic field;3D Nu- merical simulation
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DOI
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Citation
CHENG Jiulong,HUANG Shaohua,WEN Laifu,et al. Response characteristics of three-dimensional axial anisotropic media for transient electromagnetic method in underground whole-space[ J]. Journal of China Coal Society,2019,44 (1):278-286.
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