ISRM Suggested Method for In Situ Microseismic Monitoring of the Fracturing Process in Rock Masses

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• 作者：Ya-Xun Xiao ; Xia-Ting Feng ; John A. Hudson…
• 关键词：Suggested method ; Fracturing process ; In situ ; Microseismic monitoring ; Rock mechanics
• 刊名：Rock Mechanics and Rock Engineering
• 出版年：2016
• 出版时间：January 2016
• 年：2016
• 卷：49
• 期：1
• 页码：343-369
• 全文大小：4,403 KB
• 参考文献：Aki K, Richards PG (2002) Quantitative Seismology. University Science Books, California
  Bolstad DD (1990) Rockburst control research by the U.S. Bureau of Mines. Proc 2rd Int Symp on Rockbursts and Seismicity in Mines, A.A.Balkema, Rotterdam. pp 371-375
  Cai M, Kaiser PK, Martin CD (1998) A tensile model for the interpretation of microseismic events near underground openings. Pure appl Geophys 153:67–92CrossRef
  Cai M, Kaiser PK, Morioka H, Minami M, Maejima T, Tasaka Y, Kurose H (2007) FLAC/PFC coupled numerical simulation of AE in large-scale underground excavations. Int J Rock Mech Min Sci 44:550–564CrossRef
  Chen BR, Li QP, Feng XT, Xiao YX, Feng GL, Hu LX (2014) Microseismic monitoring of columnar jointed basalt fracture activity: a trial at the Baihetan Hydropower Station, China. J Seismol 18:773–793CrossRef
  Cook NGW (1963) The seismic location of rockbursts. Pergamon Press, In Proc Fifth Symp Rock Mech, pp 493–516
  Cook NGW (1964) The application of seismic techniques to problems in rock mechanics. Int J Rock Mech Min Sci 1:169–179CrossRef
  Durrheim RJ (2010) Mitigating the risk of rockbursts in the deep hard rock mines of South Africa: 100 years of research. In Extracting the Science: a century of mining research, Brune J (eds), Society for Mining, Metallurgy, and Exploration, Inc., pp 156–171
  Durrheim RJ, Cichowicz A, Ebrahim-Trollope R, Essrich F, Goldbach O, Linzer LM, Spottiswoode SM, Stankiewicz T (2007) Guidelines, standards and best practice for seismic hazard assessment and rockburst risk management in South African mines. Proceeding of the 4th international seminar on deep and high stress mining, Perth, Australia. pp 249–261
  Durrheim RJ, Ogasawara H, Nakatani M, Yabe Y, Kawakata H, Naoi M, Ward AK, Murpgh SK, Wienand J, Lenegan P, Milev AM, Murakami O, Yoshimitsu N, Kgarume T, Cichowicz A (2012) Establishment of SATREPS experimental sites in South African gold mines to monitor phenomena associated with earthquake nucleation and rupture. Deep Mining, Perth, pp 173–188
  Feignier B, Young RP (1992) Moment tensor inversion of induced microseismic events: evidence of non-shear failures in the −4 < M<−2 moment magnitude range. Geophys Res Lett 19:1503–1506CrossRef
  Feng XT, Chen BR, Li SJ, Zhang CQ, Xiao YX, Feng GL, Zhou H, Qiu SL, Zhao ZN, Yu Y, Chen DF, Ming HJ (2012) Studies on the evolution process of rockbursts in deep tunnels. J Rock Mech Geo Eng 4:289–295CrossRef
  Feng XT, Chen BR, Zhang CQ, Li SJ, Wu SY (2013a) Mechanism, warning and dynamic control of rockbursts development processes. Science Press, Beijing (in Chinese)
  Feng XT, Li SJ, Chen BR, Jiang Q (2013b) Report on comprehensive observation test and feedback analysis of the whole failure process of columnar joints basalt under excavation, in the diversion tunnel of Jinsha River hydropower station. Institute of Rock and Soil Mechanics, the Chinese Academy of Science, Wuhan (in Chinese)
  Fujii Y, Ishijima Y, Deguchi G (1997) Prediction of coal face rockbursts and microseismicity in deep longwall coal mining. Int J Rock Mech Min Sci 34:85–96CrossRef
  Ge MC (2005) Efficient mine microseismic monitoring. Int J Coal Geol 64:44–56CrossRef
  Gibowicz SJ, Kijko A (1994) An introduction to mining seismology. Academic Press, New York
  Gibowicz SJ, Young RP, Talebi S, Rawlence DJ (1991) Source parameters of seismic events at the Underground Research Laboratory in Manitoba, Canada: scaling relations for events with moment magnitude smaller than -2. Bull Seismol Soc Am 81:1157–1182
  Gong SY, Dou LM, Cao AY, He H, Du TT, Jiang H (2010) Study on optimal configuration of seismological observation network for coal mine. Chin J Geophys 53:457–465 (in Chinese) CrossRef
  Hanks TC, Kanamori HA (1979) A moment magnitude scale. J Geophys Res 84:2348–2350CrossRef
  Hanyga A (1991) Implicit curve tracing and point-to-curve ray tracing. University of Bergen, Seismological Observatory
  Hirata A, Kameoka Y, Hirano T (2007) Safety management based on detection of possible rock bursts by AE monitoring during tunnel excavation. Rock Mech Rock Eng 40:563–576CrossRef
  Julian B, Gubbins D (1997) Three-dimensional seismic ray tracing. J Geophy Res 43:95–114
  Kaiser PK, Tannant DD, McCreath DR (1996) Canadian rockburst support hand book. Geomechanics Research Centre, Laurentian University, Sudbury, Ontario
  Keilis-Borok VI (1959) On estimation of the displacement in an earthquake source and of source dimensions. Ann Geofis 12:205–214
  Kijko A (1977) An algorithm for the optimum distribution of a regional seismic network-II:an analysis of the accuracy of location of local earthquakes depending on the number of seismic stations. Pageoph 115:1011–1021CrossRef
  King GCP (1978) Geological faults, fractures, creep and strain. Philosop Trans Royal Soc London Math Phy Sci 288:197–212CrossRef
  Lesniak A, Isakow Z (2009) Space–time clustering of seismic events and hazard assessment in the Zabrze-Bielszowice coal mine, Poland. Int J Rock Mech Min Sci 46:918–928CrossRef
  Li T, Mei TT, Sun XH, Lv YG, Sheng JQ, Cai M (2013) A study on a water-inrush incident at Laohutai coalmine. Int J Rock Mech Min Sci 59:151–159
  Liu JP, Feng XT, Li YH, Xu SD, Sheng Y (2013) Studies on temporal and spatial variation of microseismic activities in a deep metal mine. Int J Rock Mech Min Sci 60:171–179
  Luo X, Yu KJ, Hatherly P, Zhang X (2001) Microseismic monitoring of rock fracturing under aquifers in longwall coal mining. Proceedings of the 71st SEG Annual Meeting, St Antonio, USA. pp 1521–1524
  Luo X, Creighton A, Gough J (2010) Passive seismic monitoring of minescale geothermal activity—a trial at Lihir Mine for mine risk management. Pure appl Geophys 167:119–129CrossRef
  Lynch RA (2007) Microseismic monitoring of open pit mines. ISS International Limited
  Lynch RA, Wuite R, Smith BS, Cichowicz A (2005) Microseismic monitoring of open pit slopes. Proc 6th Int Symp on Rockbursts and Seismicity in Mines, 9–11 March 2005, Perth, Australian. pp 581–592
  Mallet S (1999) A wavelet tour of signal processing, 2nd edn. Academic Press, Waltham
  Manthei G, Eisenblätter J (2008) Acoustic Emission in Study of Rock Stability. In: Grosse CU, Ohtsu M (eds) Acoustic Emission Testing, Springer, Berlin. pp 239–310
  Martin CD, Read RS, Martino JB (1997) Observation of brittle failure around a circular test tunnel. Int J Rock Mech Min Sci 34:1065–1073CrossRef
  Maurer H, Curtis A, Boerner DE (2010) Recent advances in optimized geophysical survey design. Geophys 75:75A177–75A194CrossRef
  McGarr A, Boettcher M, Fletcher JB, Johnston MJS, Durrheim RJ, Spottiswoode SM, Milev A (2009) A deployment of broadband seismic stations in two deep gold mines, South Africa. Bull Seism Soc Am 99:2815–2824CrossRef
  Mendecki AJ (1993) Real time quantitative seismology in mines. Proc 3rd Int Symp on Rockbursts and Seismicity in Mines, A. A. Balkema, Rotterdam. pp 287–295
  Mendecki AJ (1997) Seismic monitoring in mines. Chapman and Hall, London
  Mendecki AJ, Lynch RA, Malovichko DA (2007) Routine seismic monitoring in mines. VNIMI Seminar on seismic monitoring in Mines
  Milev AM, Spottiswoode SM, Rorke AJ, Finnie GJ (2001) Seismic monitoring of a simulated rockburst on a wall of an underground tunnel. J S Afr I Min Metall 101:253–260
  Mutke G, Stec K (1997) Seismicity in the upper Silesian Coal Basin, Poland: strong regional seismic events. Proc 4th Int Symp on Rockbursts and Seismicity in Mines, A. A. Balkema, Rotterdam. pp 213-217
  Occhiena C, Pirulli M, Scavia C (2014) A microseismic-based procedure for the detection of rock slope instabilities. Int J Rock Mech Min Sci 69:67–79
  Ogasawara H, Sato S, Nishii S, Sumitomo N, Ishii H, Lio Y, Nakao S, Ando M, Takano M, Nagai N, Ohkura T, Kawakata H, Satoh T, Kusunose K, Cho A, Mendecki AJ, Cichowicz A, Green RWE, Kataka MO (2001) Semi-controlled seismogenic experiments in South African deep gold mines. Proc 5th Int Symp on Rockbursts and Seismicity in Mines, The South African Institute of Mining and Metallurgy, Johannesburg. pp 287–292
  Oye V, Roth M (2003) Automated seismic event location for hydrocarbon reservoirs. Comput Geosci 29:851–863CrossRef
  Pattrick KW (1984) The instrumentation of seismic networks at Doornfontein gold mine. Proc 1st Int Symp on Rockbursts and Seismicity in Mines, South African Institute of Mining Metallurgy, Johannesburg. pp 337–340
  Potvin Y, Hudyma MR (2001) Keynote address: Seismic monitoring in highly mechanized hardrock mines in Canada and Australia. Proc 5th Int Symp on Rockbursts and Seismicity in Mines, The South African Institute of Mining and Metallurgy, Johannesburg. pp 267–280
  Rabinowitz N, Steinberg DM (1990) Optimal configuration of a seismographic network: a statistical approach. Bull Seismol Soc Am 80:187–196
  Scheepers JB (1984) The Klerksdorp seismic network—monitoring of seismic events and systems layout. Proc 1st Int Symp on Rockbursts and Seismicity in Mines, South African Institute of Mining Metallurgy, Johannesburg. pp 341–345
  Scott DF, Williams TJ, Friedel MJ (1997) Investigation of a rock-burst site, Sunshine Mine, Kellogg, Idaho. Proc 4th Int Symp on Rockbursts and Seismicity in Mines, A. A. Balkema, Rotterdam. pp 311–315
  Singh M, Kijko A, Durrheim RJ (2009) Seismotectonic models for South Africa: synthesis of geoscientific information, problems and way forward. Seismol Res Lett 80:71–79CrossRef
  Tang CA, Wang JM, Zhang JJ (2010) Preliminary engineering application of microseismic monitoring technique to rockburst prediction in tunneling of Jinping II project. J Rock Mech Geo Eng 2:193–208CrossRef
  Trifu CI, Shumila V, Urbancic TI (1997) Space-time analysis of microseismicity and its potential for estimating seismic hazard in mines. Proc 4th Int Symp on Rockbursts and Seismicity in Mines, A.A Balkema, Rotterdam. pp 295–298
  Trifu CI, Shumila V, Leslie I (2008) Application of joint seismic event location techniques at Chuquicamata open pit mine, Chile. Proceedings 5th International Conference and Exhibition on Mass Mining, 9–11 June 2008, Luleå, Sweden. pp 943–952
  Trnkoczy A (2009) Understanding and parameter setting of STA/LTA trigger algorithm. In: Bormann P (ed) New Manual of Seismological Observatory Practice (NMSOP). Potsdam, Deutsches GFZ, pp 1–20
  Van Aswegen G, Butler A (1993) Applications of quantitative seismology in South African gold mines. Proc 3rd Int Symp on Rockbursts and Seismicity in Mines, A.A. Balkema, Rotterdam. pp 261–266
  Vidale J (1988) Finite-difference calculation of travetimes. Bull Seism Soc Am 78:2062–2076
  Vinje V, Iversen E, Gjoystadl H (1993) Traveltime and amplitude estimation using wavefront construction. Geophysics 58:1157–1166CrossRef
  Vladut TL, Lepper CM (1985) Early warning of slope instabilities by microseismic monitoring. Proc 4th Conference on Acoustic Emission/Microseismic Activity in Geological Structures and Materials, 22–24 October 1985, Pennsylvania. pp 511–529
  Wesseloo J, Sweby GJ (2008) Microseismic monitoring of hard rock mine slopes. SHIRMS, Australian Centre for Geomechanics, Perth, pp 433–450
  Xu NW, Tang CA, Li LC, Zhou Z, Sha C, Liang ZZ, Yang JY (2011) Microseismic monitoring and stability analysis of the left bank slope in Jinping first stage hydropower station in southwestern China. Int J Rock Mech Min Sci 48:950–963CrossRef
  Young RP, Collins DS (2001) Seismic studies of rock fracture at the Underground Research Laboratory, Canada. Int J Rock Mech Min Sci 38:787–799CrossRef
  Young RP, Collins DS, Reyes-Montes JM, Baker C (2004) Quantification and interpretation of seismicity. Int J Rock Mech Min Sci 41:1317–1327CrossRef
  Zang A, Wagner CF, Dresen G (1996) Acoustic emission, microstructure, and damage model of dry and wet sandstone stressed to failure. Geophys J Int 101:17507–17521CrossRef
  Zang A, Wagner CF, Stanchits S, Dresen G, Andresen R, Haidekker MA (1998) Source analysis of acoustic emissions in Aue granite cores under symmetric and asymmetric compressive loads. Geophys J Int 135:1113–1130CrossRef
  Zhu LP, Ben-Zion Y (2013) Parametrization of general seismic potency and moment tensors for source inversion of seismic waveform data. Geophys J Int 194:839–843CrossRef
  
• 作者单位：Ya-Xun Xiao (1)
  Xia-Ting Feng (1)
  John A. Hudson (2)
  Bing-Rui Chen (1)
  Guang-Liang Feng (1)
  Jian-Po Liu (3)
  
  1. State Key Laboratory of Geomechanics and Geotechnical Engineering, Institute of Rock and Soil Mechanics, Chinese Academy of Sciences, Wuhan, 430071, Hubei, China
  2. Department of Earth Science and Engineering, Imperial College London, London, SW7 2AZ, UK
  3. Key Laboratory of Ministry of Education for Safe Mining of Deep Metal Mines, Northeastern University, Shenyang, 110004, Liaoning, China
  
• 刊物类别：Earth and Environmental Science
• 刊物主题：Earth sciences
  Geophysics and Geodesy
  Civil Engineering
  
• 出版者：Springer Wien
• ISSN：1434-453X

文摘

The purpose of this ISRM Suggested Method is to describe a methodology for in situ microseismic monitoring of the rock mass fracturing processes occurring as a result of excavations for rock slopes, tunnels, or large caverns in the fields of civil, hydraulic, or mining engineering. In this Suggested Method, the equipment that is required for a microseismic monitoring system is described; the procedures are outlined and illustrated, together with the methods for data acquisition and processing for improving the monitoring results. There is an explanation of the methods for presenting and interpreting the results, and recommendations are supported by several examples.