Application of Transient Electromagnetic Method in Detecting Water Yield Property of Roof

YANG Zhen-hua; ZHANG Fei

Safety in Coal Mines > 2012 > 43(5): 94-97.

YANG Zhen-hua, ZHANG Fei. Application of Transient Electromagnetic Method in Detecting Water Yield Property of Roof[J]. Safety in Coal Mines, 2012, 43(5): 94-97.

Citation:

YANG Zhen-hua, ZHANG Fei. Application of Transient Electromagnetic Method in Detecting Water Yield Property of Roof[J]. Safety in Coal Mines, 2012, 43(5): 94-97.

Citation:

YANG Zhen-hua, ZHANG Fei. Application of Transient Electromagnetic Method in Detecting Water Yield Property of Roof[J]. Safety in Coal Mines, 2012, 43(5): 94-97.

Application of Transient Electromagnetic Method in Detecting Water Yield Property of Roof

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Published Date: May 09, 2012

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Abstract

Abstract

In order to master water yield property condition of 36810 working face and prevent the occurrence of mine flood,Baijiazhuang coal mine used transient electromagnetic method to detect water yield property of 36810 working face roof.Through combining material of hydrography to analyze and study the detection results,it find that face convey gateway and rail roadway's roof has developed strong rich water development within 100 m and cutting hole's roof is normal.
- transient electromagnetic method,
- roof,
- watery yield property,
- detecting

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[1]	李鹏,李鹏然.瞬变电磁法在煤矿水害预测中的应用[J].河北煤炭,2009(1):9-10.
[2]	刘衍高.矿井瞬变电磁法探测底板导(含)水构造[J].煤矿开采,2008,13(4):88-90.
[3]	张开元,韩自豪.瞬变电磁法在探测煤矿采空区中的应用[J].工程地球物理学报,2007,4(4):341-344.
[4]	杨振威,李贤庆,凌标灿,等.瞬变电磁法在探测工作面顶板富水性中的应用[J].中国煤炭地质,2010,22(1):62-65.
[5]	潘友忠.瞬变电磁法在矿井巷道掘进前方富水性探测中的应用[J].安徽地质,2010,20(2):126-128.

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