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Rock Mechanics and Rock Engineering
Erschienen in: Rock Mechanics and Rock Engineering 1/2013

01.01.2013 | Original Paper

A New Elasto-Viscoplastic Damage Model Combined with the Generalized Hoek–Brown Failure Criterion for Bedded Rock Salt and its Application

verfasst von: Lin-jian Ma, Xin-yu Liu, Qin Fang, Hong-fa Xu, Hui-min Xia, Er-bing Li, Shi-gang Yang, Wen-pei Li

Erschienen in: Rock Mechanics and Rock Engineering | Ausgabe 1/2013

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Abstract

According to the requirement of the West–East Gas Transmission Project in China, the solution-mined cavities located in the Jintan bedded salt formation of Jiangsu province will be utilized for natural gas storage. This task is more challenging than conventional salt dome cavern construction and operation due to the heterogeneous bedding layers of the bedded salt formation. A three-dimensional creep damage constitutive model combined with the generalized Hoek–Brown model is exclusively formulated and validated with a series of strength and creep tests for the bedded rock salt. The viscoplastic model, which takes the coupled creep damage and the failure behavior under various stress states into account, enables both the three creep phases and the deformation induced by vicious damage and plastic flow to be calculated. A further geomechanical analysis of the rapid gas withdrawal for the thin-bedded salt cavern was performed by implementing the proposed model in the finite difference software FLAC3D. The volume convergence, the damage and failure propagation of the cavern, as well as the strain rate of the salt around the cavern, were evaluated and discussed in detail. Finally, based on the simulation study, a 7-MPa minimum internal pressure is suggested to ensure the structural stability of the Jintan bedded salt cavern. The results obtained from these investigations provide the necessary input for the design and construction of the cavern project.
Vorheriger Artikel Comparison Between Stress and Strain Quantities of the Failure–Deformation Process of Fennoscandian Hard Rocks Using Geological Information
Nächster Artikel Physical Modelling of Stress-dependent Permeability in Fractured Rocks

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Literatur
Bruno MS (2005) Geomechanical analysis and design considerations for thin-bedded salt caverns. Final report, June 1, 2003 to May 30, 2005. Terralog Technologies USA, Arcadia
Chan KS, Bodner SR, Fossum AF, Munson DE (1992) A constitutive model for inelastic flow and damage evolution in solids under triaxial compression. Mech Math 14:1–14CrossRef
Chan KS, Munson DE, Fossum AF, Bodner SR (1996) A constitutive model for representing coupled creep, fracture, and healing in rock salt. Sandia National Laboratories, Albuquerque
Chen F, Li YP, Yang CH, Zhang C (2006) Experimental study on creep behaviors of rock salt in Yunying salt mine. Chin J Rock Mech Eng 25(Suppl 1):3022–3027 (in Chinese)
Cho SH, Ogata Y, Kaneko K (2003) Strain-rate dependency of the dynamic tensile strength of rock. Int J Rock Mech Min Sci 40:763–777CrossRef
DeVries KL, Nieland JD, Ratigan JL (1998) Feasibility study for lowering the minimum gas pressure in solution-mined caverns based on geomechanical analyses of creep-induced damage and healing. U.S. Department of Energy Federal Technology Center, Morgantown
DeVries KL, Mellegard KD, Callahan GD (2002) Salt damage criterion proof-of-concept research. United States Department of Energy, PIttsburghCrossRef
DeVries KL, Mellegard KD, Callahan GD, Goodman WM (2005) Cavern roof stability for natural gas storage in bedded salt. United States Department of Energy, PIttsburgh
Durup G, Xu J (1993) Comparative study of certain constitutive laws used to describe the rheological deformation of salts. In: Proceedings of the 3rd conference on the mechanical behavior of salt, Palaiseau, France, September 1993. Trans Tech Publications, France, pp 75–83
Ehgartner BL, Sobolik SR (2002) 3-D cavern enlargement analyses. Sandia National Laboratories, AlbuquerqueCrossRef
Fukui K, Okubo S, Ogawa A (2004) Some aspects of loading-rate dependency of Sanjome andesite strengths. Int J Rock Mech Min Sci 21:1215–1219
Gentry HL (1962) Storage of high pressure natural gas in underground salt or rock caverns. In: Proceedings of the 1st international symposium on salt, Cleveland, Ohio, May 1962, pp 604–608
Hasen FD, Mellegard KD, Senseny PE (1984) Elasticity and strength of ten natural rock salts. In: Proceedings of the 1st conference on the mechanical behavior of salt, University Park, PA, November 1981. Trans Tech Publications, Cleveland, pp 71–83
Heusermann S, Rolfs O, Schmidt U (2003) Nonlinear finite-element analysis of solution mined storage caverns in rock salt using the LUBBY2 constitutive model. Comput Struct 81:629–638CrossRef
Hoek E, Brown ET (1980) Empirical strength criterion for rock masses. J Geotech Eng Div ASCE 106(GT9):1013–1035
Hoek E, Wood D, Shah S (1992) A modified Hoek-Brown criterion for jointed rock masses. In: Hudson JA (ed) Proceedings ISRM symposium: Eurock‘92, Brit Geotech Soc, London, pp 209–214
Hoek E, Carranza-Torres C, Corkum B (2002) Hoek–Brown failure criterion—2002 Edition. In: Proceedings of the 5th North American rock mechanics symposium and the 17th Tunneling Association of Canada conference (NARMS-TAC), Toronto, Ontario, Canada, July 2002
Hoffman EL (1992) Effects of cavern depth on surface subsidence and storage loss of oil-filled caverns. Sandia National Laboratories, Albuquerque
Hoffman EL (1993) Effects of cavern spacing on the performance and stability of gas-filled storage caverns. Sandia National Laboratories, Albuquerque
Hoffman EL, Ehgartner BL (1993) Evaluating the effects of the number of caverns on the performance of underground oil storage facilities. Int J Rock Mech Min Sci Geomech Abstr 30(7):1523–1526CrossRef
Hou ZM (1997) Untersuchungen zum nachweis der standisicherheit untertagedeponien im salzgebire (in German). PhD thesis, Technische University Clausthal, Clausthal
Hou ZM (2004) Technical service report of stability evaluation on 15 solution mined caverns in Jintan formation. Technical University of Clausthal, Clausthal
Hunsche U (1989) A failure criterion for natural polycrystalline rock salt. In: Advances in constitutive laws for engineering materials. Proceedings of the international conference on constitutional laws for engineering materials (ICCLEM), Chongqing, China, August 1989. International Academic Publication, Ottawa, vol 2, pp 1043–1046
Itasca (2005) FLAC3D Version 3.0, User manual. Itasca Consulting Group Inc., Minneapolis
Jeong H-S, Kang S-S, Obara Y (2007) Influence of surrounding environments and strain rates on the strength of rocks subjected to uniaxial compression. Int J Rock Mech Min Sci 44:321–331CrossRef
Jin J, Cristescu ND (1998) An elastic/viscoplastic model for transient creep of rock salt. Int J Plast 14:85–107CrossRef
Li HB, Zhao J, Li TJ (1999) Triaxial compression tests on a granite at different strain rates and confining pressures. Int J Rock Mech Min Sci 36:1057–1063CrossRef
Liang WG, Yang CH, Zhao YS, Dusseault MB, Liu J (2007) Experimental investigation of mechanical properties of bedded salt rock. Int J Rock Mech Min Sci 44:400–411CrossRef
Liang WG, Zhao YS, Xu SG, Dusseault MB (2011) Effect of strain rate on the mechanical properties of salt rock. Int J Rock Mech Min Sci 48:161–167CrossRef
Liu X-Y, Ma L-J, Ma S-N, Zhang X-W, Gao L (2011) Comparative study of four failure criteria for intact bedded rock salt. Int J Rock Mech Min Sci 48:341–346CrossRef
Lux KH, Heusermann S (1983) Creep tests on rock salt with changing load as a basis for the verification of theoretical material laws. In: Proceedings of the 6th international symposium on salt, Toronto, Ontario, Canada, May 1983, vol I, pp 417–435
Lux KH, Hou ZM (2000) New evolutions in mechanical safety analysis of repositories in rock salt. In: Proceedings of the international conference on radioactive waste disposal. Disposal technologies and concepts, Berlin, Germany, September 2000. Springer, Berlin, pp 281–286
Mahmutoğlu Y (2006) The effects of strain rate and saturation on a micro-cracked marble. Eng Geol 82:137–144CrossRef
Munson DE (1998) Analysis of multistage and other creep data for domal salts. Sandia National Laboratories, AlbuquerqueCrossRef
Munson DE, Chan KS, Fossum AF (1999) Fracture and healing of rock salt related to salt caverns. In: Proceedings of the Solution Mining Research Institute spring meeting, Las Vegas, Nevada, April 1999
Murakami S, Ohno N (1980) A continuum theory of creep and creep damage. In: Proceedings of the 3rd IUTAM symposium on creep in structures, Leicester, UK, September 1980. Springer, Berlin, pp 422–444
Nicolae M (1999) Non-associated elasto-viscoplastic models for rock salt. Int J Eng Sci 37:269–297CrossRef
Nikolaevskiĭ VN (1990) Mechanics of porous and fractured media. World Scientific, SingaporeCrossRef
Park B-Y, Ehgartner BL, Lee MY, Sobolik SR (2005) Three dimensional simulation for Big Hill Strategic Petroleum Reserve (SPR). Sandia National Laboratories, Albuquerque
Qi C, Wang M, Qian Q (2009) Strain-rate effects on the strength and fragmentation size of rocks. Int J Impact Eng 36(12):1355–1364CrossRef
Ray SK, Sarkar M, Singh TN (1999) Effect of cyclic loading and strain rate on the mechanical behavior of sandstone. Int J Rock Mech Min Sci 36:543–549CrossRef
Skrotzki W (1984) An estimate of the brittle to ductile transition in salt. In: Proceedings of the 1st conference on the mechanical behavior of salt, University Park, PA, November 1981. Trans Tech Publications, Cleveland, pp 381–388
Sobolik SR, Ehgartner BL (2006) Analysis of cavern shapes for the strategic petroleum reserve. Sandia National Laboratories, Albuquerque
Wang GJ (2004) A new constitutive creep-damage model for salt rock and its characteristics. Int J Rock Mech Min Sci 41(Suppl 1):61–67
Wawersik WR, Zeuch DH (1984) Creep and creep modeling of three domal salts—a comprehensive update. Sandia National Laboratories, Albuquerque
Yang CH, Li YP, Yin XY, Chen F, Zhang C (2006) Cosserat medium constitutive model for laminated salt rock and numerical analysis of cavern stability in deep bedded salt rock formations. In: Proceedings of the 41st US rock mechanics symposium, Golden, Colorado, June 2006, pp 906–915
Metadaten
Titel
A New Elasto-Viscoplastic Damage Model Combined with the Generalized Hoek–Brown Failure Criterion for Bedded Rock Salt and its Application
verfasst von
Lin-jian Ma
Xin-yu Liu
Qin Fang
Hong-fa Xu
Hui-min Xia
Er-bing Li
Shi-gang Yang
Wen-pei Li
Publikationsdatum
01.01.2013
Verlag
Springer Vienna
Erschienen in
Rock Mechanics and Rock Engineering / Ausgabe 1/2013
Print ISSN: 0723-2632
Elektronische ISSN: 1434-453X
DOI
https://doi.org/10.1007/s00603-012-0256-8

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