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Earth Sciences Research Journal
versión impresa ISSN 1794-6190
Resumen
BO, Wang; SHENGDONG, Liu; BIAO, Jin y WANYONG, Qiu. Fine Imaging by Using Advanced Detection of Reflected Waves in Underground Coal Mine. Earth Sci. Res. J. [online]. 2019, vol.23, n.1, pp.93-99. ISSN 1794-6190. https://doi.org/10.15446/esrj.v23n1.78750.
Safety of the mine roadway constructions is controlled by geological disasters such as faults, goaves and so on. The advanced prediction has become an in-demand topic, and advanced detection method of the reflected wave is a crucial technology for advanced prediction of geological anomalies. However, due to the influence of the complex near-source seismic wavefield in the coal mine roadway, the result of wavefield separation and migration imaging is not accurate, which lead to the fact that the fine imaging of geological anomaly is difficult. A comparative analysis of wavefield separation method of kinematics and dynamics is carried out in this paper to solve this problem. A factor of principal polarization direction is introduced according to “the orthogonal difference between the propagation direction of P-wave and S-wave and the vibration direction of particle” starting from the real-time polarization analysis from three-component seismic signals. By the factor, a modified function is constructed and integrated into pre-stack diffraction migration, which put forward the polarization migration method that incorporates wavefield separation with migration imaging. The results of physical simulation and field survey in Xiangyuan coal mine in western China are as follows: The fine imaging by using advanced detection of the reflected waves in underground coal mine can be achieved by using polarization migration in linear observation system and the polarization migration has the effect of enhancing the spatial resolution.
Palabras clave : Magma; Mine roadway; Advanced detection; Polarization analysis; Fine imaging.