• Chinese Core Periodicals
  • Chinese Core Journals of Science and Technology
  • RCCSE Chinese Authoritative Academic Journals
Email Alert RSS
Advanced Search
WEI Quande. A Rapid Decision Method to Identify Rock Burst Hazard Zones Based on Vibration and Stress Fields and Its Practice[J]. Safety in Coal Mines, 2018, 49(11): 207-210.
Citation: WEI Quande. A Rapid Decision Method to Identify Rock Burst Hazard Zones Based on Vibration and Stress Fields and Its Practice[J]. Safety in Coal Mines, 2018, 49(11): 207-210.
shu

A Rapid Decision Method to Identify Rock Burst Hazard Zones Based on Vibration and Stress Fields and Its Practice

More Information
  • Published Date: November 19, 2018
    Graphical Abstract
    • Abstract
  • The accuracy and timeliness of the rock burst monitoring and early warning cannot meet the needs of the field engineering. According to the theoretical research, software development and field practice, a rapid decision method which is based on the contours of vibration and stress fields is proposed to identify the rock burst hazard zones. The vibration contour can be used to identify the regional rock burst hazard rapidly and intuitively; while the stress contour can make early rock burst warning on partial spots. With the joint determination of the double-cloud map, it can quickly determine the rock burst danger area, and then guide the project site to carry out targeted pressure relief and support measures, thus improving the efficiency of preventing and controlling the rock burst. The results of the study have been applied in Yima Mine of Henan Province, and the effect is good.
    • FullText(HTML)
    • References (16)
  • [1]
    姜福兴,魏全德,姚顺利,等.冲击地压防治关键理论与技术分析[J].煤炭科学技术,2013,41(6):6-9.
    [2]
    付东波,齐庆新,秦海涛,等.采动应力监测系统的设计[J].煤矿开采,2009,14(6):13-16.
    [3]
    王平,姜福兴,王存文,等.冲击地压的应力增量预报方法[J].煤炭学报,2010,35(增刊):5-9.
    [4]
    陆菜平,窦林名,王耀峰,等.坚硬顶板诱发煤体冲击破坏的微震效应[J].地球物理学报,2010,53(2):450-456.
    [5]
    姜福兴,杨淑华,成云海,等.煤矿冲击地压的微地震监测研究[J].地球物理学报,2006,49(5):1511.
    [6]
    夏永学,康立军,齐庆新,等.基于微震监测的5个指标及其在冲击地压预测中的应用[J].煤炭学报,2010,35(12):2011-2015.
    [7]
    GU S T, WANG C Q, JIANG B Y, et al.Field test of rock burst danger based on drilling pulverized coal pa-rameters[J]. Disaster Adv, 2012, 5(4): 237-240.
    [8]
    齐庆新,李首滨,王淑坤.地音监测技术及其在矿压监测中的应用研究[J].煤炭学报,1994,19(3):221.
    [9]
    贺虎,窦林名,巩思园,等.冲击矿压的声发射监测技术研究[J].岩土力学,2011,32(4):1262-1268.
    [10]
    王恩元,刘忠辉,刘贞堂,等.受载煤体表面电位效应的实验研究[J].地球物理学报,2009,52(5):1318.
    [11]
    HE X Q, CHEN W X, NIE B S, et al.Electromagnetic emission theory and its application to dynamic phe-nomena in coal-rock[J]. Int.J.Rock Mech.Min.Sci., 2011, 48(8): 1352-1358.
    [12]
    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.
    [13]
    王书文,毛德兵,杜涛涛,等.基于地震CT技术的冲击危险性评价模型[J].煤炭学报,2012,37(S1):1.
    [14]
    窦林名,蔡武,巩思园,等.冲击危险性动态预测的震动CT技术研究[J].煤炭学报,2014,39(2):238.
    [15]
    刘金海,翟明华,郭信山,等.震动场、应力场联合监测冲击地压的理论与应用[J].煤炭学报,2014,39(2):353-363.
    [16]
    缪华祥.矿山微地震震源层析成像和活动特征分析[D].北京:北京科技大学,2012.
    • Related Articles

  • Related Articles

    [1]ZHANG Xizhai, WANG Wenlin. Measurement of Coal Body Stress and Research on Reasonable Width of Coal Pillar in Thick Coal Seam with Large Dip Angle[J]. Safety in Coal Mines, 2020, 51(10): 168-172.
    [2]HOU Xihua, JI Cheng, ZHAO Shankun, JIANG Junjun. Study on Reasonable Width of Section Coal Pillar with Rock Burst Risk[J]. Safety in Coal Mines, 2017, 48(9): 190-193.
    [3]YANG Gangshuai, NING Jianguo, WANG Jun, SHI Xinshuai. Study on Reasonable Size of Coal Pillar at Large Mining Height Fully-mechanized Coal Caving Face in Ordos Region[J]. Safety in Coal Mines, 2016, 47(2): 66-68,72.
    [4]ZHAO Qifeng, LIAN Huiqing, QIU Haitao, LI Hao, LIU Yuanyuan. Study on Stress Evolution and Reasonable Width of Sectional Coal Pillar Under Influence of Deep Mining[J]. Safety in Coal Mines, 2015, 46(7): 59-62.
    [5]CUI Shujiang. Actual Measurement for Reasonable Coal Pillar Width of Fully Mechanized Caving Face Stopping Line of Tashan Coal Mine[J]. Safety in Coal Mines, 2015, 46(3): 190-193.
    [6]CHEN Xiaosheng. Rationality Analysis of Chain Pillar Setting Width at Large Mining Height and Large Span Mining Face[J]. Safety in Coal Mines, 2014, 45(1): 47-50.
    [7]LIU Xiao, ZHA Wen-hua, LU De-chao, LIANG Xiao-chen. Distribution Laws of Abutment Pressure for Deep Fully-mechanized Top-coal Caving Face With Large Mining Height[J]. Safety in Coal Mines, 2013, 44(7): 47-49,53.
    [8]SUN Peng, GUO Han-qing. Analysis of Small Coal Pillar Width in Mechanized Caving Face Along the Roadway[J]. Safety in Coal Mines, 2012, 43(11): 191-193.
    [9]ZHANG Shuan-cai. 强矿压小煤柱分层掘进巷道高强联合支护技术[J]. Safety in Coal Mines, 2012, 43(10): 86-88.
    [10]ZHANG Sheng-yun, HE Feng. Lateral Pressure Distribution Laws at Fully Mechanized Coal Face in Close-distance Seams[J]. Safety in Coal Mines, 2012, 43(10): 38-41.

Catalog

    Get Citation
    XML
    Article views (140) PDF downloads (1) Cited by()
    Turn off MathJax
    Article Contents
    Abstract
    References
    Related Articles
    Links

    辽公网安备 21049802000106号 辽ICP备11020636号-9

    Website Copyright © CCTEG Shenyang Research Institute

    Address:No. 11 Binhe Road, Fushun Economic Development Zone, Liaoning Postal Code:113122

    Tel:024-56616988/56616881 Email:mkaq@163.com

    Supported by: Beijing Renhe Information Technology Co., Ltd. Baidu Analytics

    /

    DownLoad:  Full-Size Img  PowerPoint
    Return
    Return