References
Banka P, Jaworski A (2010) Possibility of more precise analytical prediction of rock mass energy changes with the use of passive seismic tomography readings. Arch Min Sci 55(4):723–731
Cai W, Dou LM, Cao AY, Gong SY, Li ZL (2014) Application of seismic velocity tomography in underground coal mines: a case study of Yima mining area, Henan, China. J Appl Geophys 109:140–149
Cai W, Dou LM, Gong SY, Li ZL, Yuan SS (2015) Quantitative analysis of seismic velocity tomography in rock burst hazard assessment. Nat Hazards 75(3):2453–2465
Dou LM, Chen TJ, Gong SY, He H, Zhang SB (2012) Rockburst hazard determination by using computed tomography technology in deep workface. Safety Sci 50(4):736–740
Dou LM, Mu ZL, Li ZL, Cao AY, Gong SY (2014) Research progress of monitoring, forecasting, and prevention of rockburst in underground coal mining in China. Int J Coal Sci Technol 1(3):278–288
Frankel A (1995) Mapping seismic hazard in the central and eastern United States. Seismol Res Lett 66(4):8–21
He J, Dou LM, Cao AY, Gong SY, Lu JW (2012a) Rock burst induced by roof breakage and its prevention. J Cent South Univ Technol 19(4):1086–1091
He H, Dou L, Fan J, Du T, Sun X (2012b) Deep-hole directional fracturing of thick hard roof for rockburst prevention. Tunn Undergr Sp Technol 32:34–43
Hosseini N, Oraee K, Shahriar K, Goshtasbi K (2012) Passive seismic velocity tomography and geostatistical simulation on longwall ming panel. Arch Min Sci 57(1):57–67
Hosseini N, Oraee K, Shahriar K, Goshtasbi K (2013) Studying the stress redistribution around the longwall mining panel using passive seismic velocity tomography and geostatistical estimation. Arab J Geosci 6(5):1407–1416
Jiang Q, Feng X, Xiang TB, Su GS (2010) Rockburst characteristics and numerical simulation based on a new energy index: a case study of a tunnel at 2500 m depth. Bull Eng Geol Environ 69(3):381–388
Kabiesz J, Makowka J (2009) Selected elements of rock burst state assessment in case studies from the Silesian hard coalmines. Min Sci Technol 19(5):660–667
Kracke DW, Heinrich R (2004) Local seismic hazard assessment in areas of weak to moderate seismicity case study from Eastern Germany. Tectonophysics 390(1–4):45–55
Li ZL, Dou LM, Cai W, Wang GF, He J, Gong SY, Ding YL (2014) Investigation and analysis of the rock burst mechanism induced within fault-pillars. Int J Rock Mech Min Sci 70:192–200
Li ZL, Dou LM, Wang GF, Cai W, He J, Ding YL (2015) Risk evaluation of rock burst through theory of static and dynamic stresses superposition. J Cent South Univ 22(2):676–683
Lu CP, Liu GJ, Liu Y, Zhang N, Xue JH, Zhang L (2015) Microseismic multi-parameter characteristics of rockburst hazard induced by hard roof fall and high stress concentration. Int J Rock Mech Min Sci 76(6):18–32
Lurka A (2008) Location of high seismic activity zones and seismic hazard assessment in Zabrze Bielszowice coalmine using passive tomography. J China Univ Min Technol 18(2):177–181
Luxbacher K, Westman E, Swanson P, Karfakis M (2008) Three-dimensional time-lapse velocity tomography of an underground longwall panel. Int J Rock Mech Min Sci 45(4):478–485
Ortlepp WD, Stacey TR (1994) Rock burst mechanisms in tunnels and shafts. Tunn Undergr Sp Technol 59(6):59–65
Patynska R (2013) The consequences of rock burst hazard for silesian companies in Poland. Acta Geodynamica Et Geomaterialia 10(2):227–235
Patynska R, Kabiesz J (2009) Scale of seismic and rock burst hazard in the silesian companies in poland. Min Sci Technol 19(5):604–608
State Administration of Work Safety, State Administration of Coalmine Safety (2005) Investigation and disposition bulletin for the extremely large gas explosion accident ‘‘2.14’’ in Haizhou shaft of Sunjiawan coalmine, Fuxing mining group co., Ltd, Liaoning province. http://www.chinasafety.gov.cn/2005-05/17/content_141468.htm. Accessed 16 May 2005
Uszko M (2009) Monitoring of methane and rockburst hazards as a condition of safe coal exploitation in the mines of Kompania Weglowa SA. Procedia Earth Planet Sci 1(1):54–59
Wang HW, Jiang YD, Zhu J, Shan RY, Wang C (2013) Numerical investigation on the assessment and mitigation of coal bump in an island longwall panel. Int J Min Sci Technol 23(5):625–630
Acknowledgments
The authors acknowledge the financial support from the National Natural Science Foundation of China (Grant No. 51504248), the Jiangsu Natural Science Foundation of China (Grant No. BK20140194), the Fundamental Research Funds for the Central Universities (Grant No. 2014QNB40), and the Academic Programme for Development of Jiangsu Higher Education Institutions in China (Grant No. SZBF2011-6-B35).
Author information
Authors and Affiliations
Corresponding authors
Rights and permissions
About this article
Cite this article
Wang, Gf., Gong, Sy., Li, Zl. et al. Evolution of Stress Concentration and Energy Release Before Rock Bursts: Two Case Studies from Xingan Coal mine, Hegang, China. Rock Mech Rock Eng 49, 3393–3401 (2016). https://doi.org/10.1007/s00603-015-0892-x
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00603-015-0892-x