A Theoretical Study of Underground Magnetic Resonance Sounding for the Advanced Detection of Water Influxes in Tunnels

IF 1 4区 工程技术 Q4 ENGINEERING, GEOLOGICAL
Yue Zhao, Jun Lin, Chuandong Jiang, Xiaofeng Yi
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引用次数: 0

Abstract

Based on surface magnetic resonance sounding (MRS), a relationship is proposed to express the MRS response signal with a vertical coil for the MRS method for a whole underground space model. Firstly, the declination and inclination characteristics of the Earth's magnetic field and the coil normal angle are studied by deriving the angle rotation matrix. Surprisingly, the results indicate that the MRS signal can be effectively improved by changing the normal direction of the coil perpendicular to that of the Earth's magnetic field. The advanced detection distance of the underground MRS method is closely related to the exciting pulse moment and the receiving sensitivity. Hence, a larger pulse moment and high receiving sensitivity correspond to a longer advanced detection distance. However, the limited transmitting moment will reduce the advanced detection distance. In the research coincident loop with the coil 2 m by 2 m square is employed. In order to overcome the noises with 1 nV and 100 nV level, the turns of loop should be 100 turns and 400 turns, respectively. Finally, the numerical simulation results verify the feasibility of underground whole MRS theory and resolution analysis method for the advanced detection of water-inrush disasters in mines and tunnels.
地下磁共振测深超前探测隧道涌水的理论研究
在地表磁共振测深的基础上,提出了用垂直线圈表示地表磁共振响应信号的关系式,用于整个地下空间模型的地表磁共振测深方法。首先,通过推导角度旋转矩阵,研究了地磁场的赤斜特性和线圈法向角;令人惊讶的是,结果表明,通过改变垂直于地球磁场方向的线圈的法向,可以有效地改善MRS信号。地下磁振法的超前探测距离与激发脉冲矩和接收灵敏度密切相关。因此,较大的脉冲矩和较高的接收灵敏度对应较长的超前探测距离。然而,有限的发射力矩会减少超前探测距离。在研究中,与线圈重合的回路采用了2m × 2m的正方形。为了克服1 nV和100 nV级别的噪声,回路匝数应分别为100匝和400匝。最后,数值模拟结果验证了井下整体MRS理论和分辨率分析方法在矿井和隧道突水灾害超前探测中的可行性。
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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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