地空瞬变电磁高精度波场成像法探测采空区

IF 1.6 3区地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS

Journal of Geophysics and Engineering Pub Date : 2023-04-26 DOI:10.1093/jge/gxad028

Hang Yang, Wangsheng Cheng, Z. Qi, H. Cao, Xiu Li, N. Sun, Jie Ma

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引用次数: 1

摘要

采空区是煤矿突水事故发生的主要原因。采空区突水引起的地面塌陷是煤矿进一步开采的重大威胁。由于黄土高原丘陵地形，传统的地面瞬变电磁法难以实现。提出了一种地空瞬变电磁法探测黄土高原采空区的方法。首先，利用研究区地质资料建立数值模型。利用正演模拟确定了采空区瞬变电磁法的响应。然后，采用高精度波场变换方法对正演模型进行成像。结果表明，与视电阻率定义法相比，高精度波场变换法的结果更准确地反映了地下结构，避免了体积效应。最后，采用高精度时间扫描波场成像方法对现场数据进行处理。结果表明，高精度波场成像方法能够准确地确定采空区的位置。此外，还明确了地层和采空区的上、下界面。

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Goaf area detection using high-precision wavefield imaging method of ground-airborne transient electromagnetics

The coal goaf areas are the main cause of accidents involving water intrusion in coal mines. The ground collapse caused by water intrusion in goaf areas pose major threats to further coal mining. As the conventional ground-based transient electromagnetic method is difficult to perform due to the hilly terrain in the Loess Plateau. In this study, a ground-airborne transient electromagnetic method for detecting coal goaf areas on the Loess Plateau was presented. First, a numerical model was built using the geological data of the study area. The TEM responses of the coal goaf area were determined by forward modeling. Then, the high-precision wavefield transformation method was applied to image the forward model. It was found that compared with the apparent resistivity definition method, the results of the high-precision wavefield transformation method more accurately represented the subsurface structures and the volume effect was avoided. Finally, the high-precision time sweep wavefield imaging method was applied to process the field data. The results revealed that the high-precision wavefield imaging method was able to accurately determine the locations of the goaf areas. In addition, the upper and lower interfaces of the strata and the goaf areas were clearly identified.

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来源期刊

Journal of Geophysics and Engineering 工程技术-地球化学与地球物理

CiteScore

2.50

自引率

21.40%

发文量

审稿时长

4 months

期刊介绍： Journal of Geophysics and Engineering aims to promote research and developments in geophysics and related areas of engineering. It has a predominantly applied science and engineering focus, but solicits and accepts high-quality contributions in all earth-physics disciplines, including geodynamics, natural and controlled-source seismology, oil, gas and mineral exploration, petrophysics and reservoir geophysics. The journal covers those aspects of engineering that are closely related to geophysics, or on the targets and problems that geophysics addresses. Typically, this is engineering focused on the subsurface, particularly petroleum engineering, rock mechanics, geophysical software engineering, drilling technology, remote sensing, instrumentation and sensor design.