Dilatancy Criteria for Salt Cavern Design: A Comparison Between Stress- and Strain-Based Approaches

被引:0
作者
P. Labaune
A. Rouabhi
M. Tijani
L. Blanco-Martín
T. You
机构
[1] PSL Research University,Centre de Géosciences, MINES ParisTech
[2] Geostock,undefined
来源
Rock Mechanics and Rock Engineering | 2018年 / 51卷
关键词
Underground storage; Cavern design; Salt rheology; Dilatancy criteria;
D O I
暂无
中图分类号
学科分类号
摘要
This paper presents a new approach for salt cavern design, based on the use of the onset of dilatancy as a design threshold. In the proposed approach, a rheological model that includes dilatancy at the constitutive level is developed, and a strain-based dilatancy criterion is defined. As compared to classical design methods that consist in simulating cavern behavior through creep laws (fitted on long-term tests) and then using a criterion (derived from short-terms tests or experience) to determine the stability of the excavation, the proposed approach is consistent both with short- and long-term conditions. The new strain-based dilatancy criterion is compared to a stress-based dilatancy criterion through numerical simulations of salt caverns under cyclic loading conditions. The dilatancy zones predicted by the strain-based criterion are larger than the ones predicted by the stress-based criteria, which is conservative yet constructive for design purposes.
引用
收藏
页码:599 / 611
页数:12
相关论文
共 64 条
  • [1] Aubertin M(1991)A unified viscoplastic model for the inelastic flow of alkali halides Mech Mater 11 63-82
  • [2] Gill DE(1997)Geotechnical studies associated with decommisioning the strategic petroleum reserve facility at Weeks Island, Louisiana: a case history Int J Rock Mech Min Sci 34 25-e1-1043
  • [3] Ladanyi B(2008)The 1873 collapse of the Saint-Maximilien panel at the Varangeville salt mine Int J Rock Mech Min Sci 45 1025-2878
  • [4] Bauer SJ(2008)Comportement mécanique à très long terme des mines et cavernes dans le sel gemme : loi de Norton-Hoff ou loi de Lemaitre Revue Française de Géotechnique 1 45-140
  • [5] Ehgartner BL(2004)Yield criteria for quasibrittle and frictional materials Int J Solid Struct 41 2855-224
  • [6] Neal JT(1993)A general constitutive equation for transient and stationary creep of rock salt Int J Rock Mechan Min Sci Geomechan Abstr 30 125-638
  • [7] Bérest P(2015)Feasibility study of underground salt caverns in Western Newfoundland: experimental and finite element investigation of creep-induced damage J Min Environ 6 205-738
  • [8] Brouard B(2003)Nonlinear finite-element analysis of solution mined storage caverns in rock salt using the Lubby2 constitutive model Comput Struct 81 629-131
  • [9] Feuga B(2003)Mechanical and hydraulic behavior of rock salt in the excavation disturbed zone around underground facilities Int J Rock Mech Min Sci 40 725-4555
  • [10] Karimi-Jafari M(2016)Stability and serviceability of underground energy storage caverns in rock salt subjected to mechanical cyclic loading Int J Rock Mech Min Sci 86 115-185
1234567