Prediction of Impact Risk of 15103 Airway in Bao’an Mine

LIN Haifeng

Safety in Coal Mines > 2017 > 48(12): 131-134.

LIN Haifeng. Prediction of Impact Risk of 15103 Airway in Bao’an Mine[J]. Safety in Coal Mines, 2017, 48(12): 131-134.

Citation:

LIN Haifeng. Prediction of Impact Risk of 15103 Airway in Bao’an Mine[J]. Safety in Coal Mines, 2017, 48(12): 131-134.

Citation:

LIN Haifeng. Prediction of Impact Risk of 15103 Airway in Bao’an Mine[J]. Safety in Coal Mines, 2017, 48(12): 131-134.

Prediction of Impact Risk of 15103 Airway in Bao’an Mine

LIN Haifeng

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Published Date: December 19, 2017

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Abstract

Abstract

The prediction method combining drilling cuttings method and electromagnetic radiation method, through the comprehensive study on the comparative analysis of the determination results of indexes such as drill cuttings, grain size, dynamic phenomena and electromagnetic radiation critical value, the prediction of Bao’an Coal Mine 15103 airway impact danger is carried out, and field practice shows that the prediction is more efficient and accurate.
- impact risk,
- drilling cuttings method,
- stress concentration,
- particle size of drilling cuttings,
- electromagnetic radiation method

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References

[1]	陈峰．利用钻屑法预测冲击地压危险性的试验研究[D]．阜新：辽宁工程技术大学，2013：23－30.
[2]	褚庆典，秦志建．钻屑法预测冲击地压的应用[J]．徐煤科技，1996（2）：40－41.
[3]	赵国玺．忻州窑煤矿冲击地压综合预测技术[J]．内蒙古煤炭经济，2008（3）：47－49.
[4]	陈峰，潘一山，李忠华，等．基于钻屑法的冲击地压危险性检测研究[J]．中国地质灾害与防治学报，2013，24（2）：116－119.
[5]	邹范祥，孙凌资，褚福军．钻屑法在监测冲击地压中的研究与应用[J]．山东煤炭科技，2010（5）：156－157.
[6]	窦林名，何学秋，王恩元．冲击矿压预测的电磁辐射技术及应用[J]．煤炭学报，2004，29（4）：396－399.
[7]	郭夕祥，孙凯，张沛林，等．坚硬顶板易冲击煤层电磁辐射规律及其预测应用[J]．中国煤炭，2009，35（1）：39－41.
[8]	顾合龙，王文，林东．电磁辐射在冲击地压预测预报中的应用[J]．煤炭技术，2015，34（8）：105－108．

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