Ultra-complex Geological Anomalies Modeling on Transient Electromagnetic Response

IF 1 4区 工程技术 Q4 ENGINEERING, GEOLOGICAL Journal of Environmental and Engineering Geophysics Pub Date : 2022-06-01 DOI:10.32389/jeeg22-010
Zhihai Jiang, Wenchuang Wang, Gongjin Zang, Zhaotao Yan
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引用次数: 0

Abstract

In reality, the spatial distribution of geological anomalies is extremely complex. In the process of numerical simulation of transient electromagnetic method, limited to the modeling level, regular sphere, cylinder, cuboid and other simple models are often used to replace the complex actual geological model. As a result, there is a large deviation between the numerical simulation results and the real transient electromagnetic response of the actual geological model, which affects the reliability of the data interpretation. In order to solve the problem of transient electromagnetic numerical simulation of complex geoelectric model, we established complex geological anomalies model based on a variety of modeling platforms, and integrated the spatial combination information of nodes, lines and surfaces of the model with the spatial information of the observation system. Then gained the unstructured mesh discrete space of the integrated model according to the Delaunay tetrahedral subdivision principle. Finally, we realized the simulation of the transient electromagnetic responses of ultra-complex models by using vector finite element method.
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瞬变电磁响应的超复杂地质异常建模
在现实中,地质异常的空间分布极为复杂。在瞬变电磁法数值模拟过程中,囿于建模层面,常采用规则的球体、圆柱体、长方体等简单模型来代替复杂的实际地质模型。结果表明,数值模拟结果与实际地质模型的真实瞬变电磁响应存在较大偏差,影响了数据解释的可靠性。为了解决复杂地电模型的瞬变电磁数值模拟问题,基于多种建模平台建立了复杂地质异常模型,并将模型的节点、线、面空间组合信息与观测系统的空间信息相结合。然后根据Delaunay四面体剖分原理得到集成模型的非结构化网格离散空间。最后,利用矢量有限元法实现了超复杂模型的瞬变电磁响应仿真。
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来源期刊
Journal of Environmental and Engineering Geophysics
Journal of Environmental and Engineering Geophysics 地学-地球化学与地球物理
CiteScore
2.70
自引率
0.00%
发文量
13
审稿时长
6 months
期刊介绍: The JEEG (ISSN 1083-1363) is the peer-reviewed journal of the Environmental and Engineering Geophysical Society (EEGS). JEEG welcomes manuscripts on new developments in near-surface geophysics applied to environmental, engineering, and mining issues, as well as novel near-surface geophysics case histories and descriptions of new hardware aimed at the near-surface geophysics community.
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