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Rock Mechanics and Rock Engineering
Erschienen in: Rock Mechanics and Rock Engineering 2/2014

01.03.2014 | Original Paper

An Approach for Modeling Rock Discontinuous Mechanical Behavior Under Multiphase Fluid Flow Conditions

verfasst von: Peng-Zhi Pan, Jonny Rutqvist, Xia-Ting Feng, Fei Yan

Erschienen in: Rock Mechanics and Rock Engineering | Ausgabe 2/2014

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Abstract

In this paper, the two computer codes TOUGH2 and RDCA (for “rock discontinuous cellular automaton”) are integrated for coupled hydromechanical analysis of multiphase fluid flow and discontinuous mechanical behavior in heterogeneous rock. TOUGH2 is a well-established code for geohydrological analysis involving multiphase, multicomponent fluid flow and heat transport; RDCA is a numerical model developed for simulating the nonlinear and discontinuous geomechanical behavior of rock. The RDCA incorporates the discontinuity of a fracture independently of the mesh, such that the fracture can be arbitrarily located within an element, while the fluid pressure calculated by TOUGH2 can be conveniently applied to fracture surfaces. We verify and demonstrate the coupled TOUGH–RDCA simulator by modeling a number of simulation examples related to coupled multiphase flow and geomechanical processes associated with the deep geological storage of carbon dioxide—including modeling of ground surface uplift, stress-dependent permeability, and the coupled multiphase flow and geomechanical behavior of fractures intersecting the caprock.
Vorheriger Artikel Analysis of the Influence of a Natural Fracture Network on Hydraulic Fracture Propagation in Carbonate Formations
Nächster Artikel Terrestrial Photogrammetry and Numerical Modelling for the Stability Analysis of Rock Slopes in High Mountain Areas: Aiguilles Marbrées case

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Metadaten
Titel
An Approach for Modeling Rock Discontinuous Mechanical Behavior Under Multiphase Fluid Flow Conditions
verfasst von
Peng-Zhi Pan
Jonny Rutqvist
Xia-Ting Feng
Fei Yan
Publikationsdatum
01.03.2014
Verlag
Springer Vienna
Erschienen in
Rock Mechanics and Rock Engineering / Ausgabe 2/2014
Print ISSN: 0723-2632
Elektronische ISSN: 1434-453X
DOI
https://doi.org/10.1007/s00603-013-0428-1

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