Evaluation of rock fracture patterns based on the element-free Galerkin method for stability assessment of a highly pressurized gas storage cavern
Journal article
Authors/Editors
Strategic Research Themes
No matching items found.
Publication Details
Author list: Tunsakul J., Jongpradist P., Kim H.-M., Nanakorn P.
Publisher: Springer
Publication year: 2018
Journal: Acta Geotechnica (1861-1125)
Volume number: 13
Issue number: 4
Start page: 817
End page: 832
Number of pages: 16
ISSN: 1861-1125
eISSN: 1861-1133
Languages: English-Great Britain (EN-GB)
View in Web of Science | View on publisher site | View citing articles in Web of Science
Abstract
Reasonable failure paths are crucial in the stability assessment of a highly pressurized gas storage cavern in a rock mass using limit equilibrium analysis. In this study, the fracture patterns in the rock mass around a gas storage cavern are evaluated based on the element-free Galerkin (EFG) method with a cohesive crack model. The proposed analysis method was first validated through scaled-down model testing results before extending to a full-scale problem. Using the current approach, a parametric sensitivity analysis was performed by taking into account the influences of the stress ratio, the depth of the cavern, and the tensile strength of the rock mass. Based on the analysis results obtained, this research showed that the representative failure paths, in which the uplift evaluation is necessary, can be established from the EFG results with careful consideration of crack initiation and the propagation direction. The site having an in situ stress ratio greater than 1.2 is preferred for operation of underground gas storage caverns. By performing the limit equilibrium analyses for stability assessment of the rock mass above the pressurized cavern, we demonstrated that the factor of safety against uplift computed from the failure paths established in this study is higher than or equal to those obtained from analyses with the simplified models in previous studies without considering the influence parameters on the fracture patterns. ฉ 2017, Springer-Verlag GmbH Germany.
Keywords
Fracture pattern, Underground gas storage, Uplift evaluation
Contact Information