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Academic Journal of Architecture and Geotechnical Engineering, 2024, 6(4); doi: 10.25236/AJAGE.2024.060408.

Exploration and 3D visualization application of controllable source audio magnetotelluric method for water rich coal mine faults

Author(s)

Zhang Dabin

Corresponding Author:
Zhang Dabin
Affiliation(s)

Third Exploration Team of Shandong Coalfield Geological Bureau, Tai'an, Shandong, China

Abstract

The development of faults and other structures poses significant safety hazards in coal mining. With the increasing depth and accuracy of fault exploration, three-dimensional visualization applications based on two-dimensional data volumes have become the main development direction for fine exploration of water rich coal mine faults. In terms of fault exploration, controllable source audio magnetotelluric method is currently the main geophysical method for fault exploration. Through detection and comparative analysis, the controllable source audio magnetotelluric method can effectively identify differences in physical properties such as apparent resistivity. 3D visualization utilizes 3D visualization software to display the spatial distribution of apparent resistivity and analyze the differences in physical properties in 3D space.

Keywords

Fault rich water, controllable source audio magnetotelluric method, 3D visualization

Cite This Paper

Zhang Dabin. Exploration and 3D visualization application of controllable source audio magnetotelluric method for water rich coal mine faults. Academic Journal of Architecture and Geotechnical Engineering (2024) Vol. 6, Issue 4: 49-53. https://doi.org/10.25236/AJAGE.2024.060408.

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