Application of Seismic Channel Wave Technology on Small Structure Exploration in Coal Mine

International Journal of Energy Pub Date : 2023-12-12 DOI:10.54097/ije.v3i3.004

Shaoqin Fan, Yanzhao Chen, Li Wang, Xiaopan Liu, Jiang-Min Chen

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Abstract

At lane 20207 and lane 50207 of the 80207 working face of Sitai Mine, many small faults are exposed, and their extension is unknown, which causes great interference to safe and efficient mining and even normal production of the working face. In order to guide the rational transformation and safe and efficient production of the working face with science, Sitai Coal Mine commissioned Henan Polytechnic University to find out the extension of the exposed fault on the face and other geological anomalies by using geophysical exploration methods. According to the purpose of geophysical exploration in Sitai coal mine, combined with the geological conditions of the working face, the SUMMIT II EX type seismic channel wave exploration produced by DMT company of Germany is selected to explore the 80207 working face with the combined detection method of transmission and reflection. According to the detection results, combined with the existing hydrogeological data of Sitai mine, the relative channel wave anomaly area is delineated. The results show that the seismic channel wave exploration can provide a basis for the prevention and control of mine water disaster conveniently and effectively.

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地震槽波技术在煤矿小型结构勘探中的应用

四台煤矿80207工作面20207巷、50207巷有多条小断层出露，延伸范围不明，对工作面的安全高效开采乃至正常生产造成了极大的干扰。为科学指导工作面的合理改造和安全高效生产，四台煤矿委托河南工业大学采用地球物理勘探方法，查明工作面出露断层的延伸情况及其他地质异常现象。根据西台煤矿地球物理勘探的目的，结合工作面的地质条件，选用德国DMT公司生产的SUMMIT II EX型地震道波勘探仪，采用透射与反射相结合的探测方法，对80207工作面进行勘探。根据探测结果，结合四台矿现有的水文地质资料，划定了相对的道波异常区。结果表明，地震槽波探测可为方便有效地防治矿井水灾害提供依据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Energy

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