Application of audio frequency electric perspective technology in mine water disaster prevention
DOI:
https://doi.org/10.54097/ije.v2i2.6193Keywords:
Audio electrical perspective technique, Geophysical characteristics, Electrical conductivity, Data processing, Water-richAbstract
Based on the geophysical characteristics of the top and floor strata of No.8 coal seam in Sitai Mine, through the reasonable site arrangement of measuring points and rigorous indoor data processing and analysis, the use of audio electrical perspective technology to detect the top and floor low resistivity abnormal area in 80207 working face. According to the detection results, combined with the existing hydrogeological data of Sitai mine, the relative water-bearing area and the key water control area of the working face are delineated. The results show that the audio frequency electric perspective technology can provide a basis for the prevention and control of mine water disaster conveniently and effectively.
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Guo Pengfei, Xie Xionggang, Bai Wen, et al. Application of Audio Frequency Electric Perspective Method in Detecting Mine Flooding Zones[J]. Industrial Safety and Environmental Protection, 2018,44(4):34-36.
Zhang Jun, Wang Yong, Qin Honggang, et al. The Application of Audio Frequency Electric Perspective to Detection of Coal Mine Work Face[J]. Chinese Journal of Engineering Geophysics, 2013,10(4):551-554.
Yu Sen, Ji Chao. Application of audio frequency electrofluoroscopy in Qianjiaying mine[J]. Hydraulic Coal Mining & Pipeline Transportation, 2013(4):58-59.
Wang Jianjun. Application of audio frequency electric perspective in fully mechanized coal mining face[J]. China Mine Engineering, 2008,37(2):36-38.
Li Dan, Han Depin, Shi Yading, et al. Electric detection method of coal seam perspective along coal face[J]. Journal of China Coal Society, 2010,35(8):1336-1340.
Jin Jingyu. Application of audio frequency electric perspective technology in the prevention and control of coal seam roof water[J]. Shandong Coal Science and Technology, 2014(7):163-165.
Zhou Xiaolong, Chen Guojun,. Application of audio frequency electric perspective method in limestone water detection of working face in Huainan Coal Mine[J]. Coal Science & Technology Magazine, 2017(1):92-94.
Gao Zhihong, Wang Yanhong, Chen Qingfeng. Detection of rich water area in working face and mine electric method — Application effect of audio frequency electric perspective in detecting rich water area in working face[J]. Coal Geology & Exploration, 2002,30(4):51-54.
Li Donglin, Jiang Zhenquan, Yang Dongliang. Water resistance condition of coal seam floor reflected by audio frequency electroscopic detection results[J]. Journal of Earth Sciences and Environment, 2005,27(3):68-71.
Wu Chaofan, Qiu Zhanlin, Jin Qizhong. Analysis of transient electromagnetic water exploration effect in limestone roadway [J]. Mining Safety & Environmental Protection, 2013,40(5):67-70.
Li Bing. Application of advanced detection technique of direct current method in detecting water-bearing fault structure[J]. Coal Technology, 2015(3):113-115.
Zhou wenlong. Comparative analysis of three geophysical exploration methods for water damage in working face floor[D]. Huainan: Anhui University of Science and Technology, 2017.
Feng Bo, Liu Lin. Application analysis of transient electromagnetic technology in coal seam roof water prevention[J]. Jiangxi Coal Science & Technology, 2017(1): 36-38,42.
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