Fault Stability Perturbation by Thermal Pressurization and Stress Transfer Around a Deep Geological Repository in a Clay Formation

Urpi, Luca; Rinaldi, Antonio Pio; Rutqvist, Jonny; Wiemer, Stefan

doi:10.1029/2019jb017694

Cited by 26 publications

(10 citation statements)

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“…11ef). These results are valid for steeply dipping faults and are well in agreement with a recent 2D study on fault reactivation during disposal of nuclear waste at depth [46]. The removal of some bottlenecks, thanks to the use of binary files rather than ASCII, and the removal of save/restore operations for FLAC3D, largely helped in improving the performances of the coupled approach.…”

Section: Potential For Fault Reactivation During Geological Nuclear W...supporting

confidence: 87%

TOUGH3-FLAC3D: a modeling approach for parallel computing of fluid flow and geomechanics

et al. 2022

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The recent development of the TOUGH3 code allows for a faster and more reliable fluid flow simulator. At the same time, new versions of FLAC3D are released periodically, allowing for new features and faster execution. In this paper, we present the first implementation of the coupling between TOUGH3 and FLAC3Dv6/7, maintaining parallel computing capabilities for the coupled fluid flow and geomechanical codes. We compare the newly developed version with analytical solutions and with the previous approach, and provide some performance analysis on different meshes and varying the number of running processors. Finally, we present two case studies related to fault reactivation during CO2 sequestration and nuclear waste disposal. The use of parallel computing allows for meshes with a larger number of elements, and hence more detailed understanding of thermo-hydro-mechanical processes occurring at depth.

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Section: Potential For Fault Reactivation During Geological Nuclear W...supporting

confidence: 87%

TOUGH3-FLAC3D: a modeling approach for parallel computing of fluid flow and geomechanics

et al. 2022

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“…Clay content also affects the strengths of faults (Bakker et al., 2019; Hyndman et al., 1997; Ikari et al., 2009) and contributes to fluid diffusion‐sorption processes that result in expansion and/or contraction of the clay‐bearing rock (Huang et al., 1986). The potential to generate permeability by induced damage continues to raise concerns regarding the deployment of large‐scale geologic CO 2 storage (Cappa & Rutqvist, 2011; Zoback & Gorelick, 2012) and of nuclear waste repositories (Urpi et al., 2019), where shale and mudstone form the main seal system that prevents the escape of fluids. Yet, field evidence shows that it is technically difficult to sustain hydrocarbon production from shale reservoirs, requiring the use of “proppants” (Hou et al., 2020).…”

Section: Introductionmentioning

confidence: 99%

Chemo‐Mechanical Coupling in Fractured Shale With Water and Hydrocarbon Flow

Wenning

Madonna

Kurotori

et al. 2021

Geophysical Research Letters

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The transport of chemically reactive fluids through fractured clay‐rich rocks is fundamental to many subsurface engineering technologies. Here, we present results of direct‐shear laboratory experiments with simultaneous imaging by X‐ray Computed Tomography in Opalinus claystone with subsequent fluid injection to unravel the interplay between mechanical fracture deformation, fluid sorption, and flow. Under constant radial stress (σc = 1.5 MPa), the average mechanical aperture trued¯CT increases with shear displacement. Upon brine injection, trued¯CT is reduced by 40% relative to initial conditions (trued¯CT0=140−250 μm) and fluid‐sorption induces a divergent displacement of the two sample halves (Δh = ±50 − 170 μm) quantified by digital image correlation. None of these changes are observed in a control experiment with decane, indicating that creep is subordinate to swelling in sealing the fracture. Swelling‐induced changes in permeability within the fracture are heterogeneous and largely affect the fracture flow field, as computed using numerical simulations.

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“…Q is the sum of flow rates [m 3 /s] into the flow element from all surrounding contacts and ∆𝑡𝑡 is the time step. V, ∆𝑉𝑉 and 𝑉𝑉 𝑚𝑚 are respectively current flow element volume [m 3 ], volume change in the current step and the average volume.…”

Section: Experiments Settingmentioning

confidence: 99%

“…Fault reactivation or shearing of fractures can be an important issue related to the safety of deep geological disposal for radioactive waste [1,2,3]. Elevated risk may arise when fault reactivation is triggered, leading to an increase in permeability and a potential flow path for transport of radionuclides, if released from waste package.…”

Section: Introductionmentioning

confidence: 99%

Modelling the water injection induced fault slip and its application to in-situ stress estimation

Shiu¹,

Guglielmi

Graupner

et al. 2021

International Journal of Rock Mechanics and Mining Sciences

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Fault Stability Perturbation by Thermal Pressurization and Stress Transfer Around a Deep Geological Repository in a Clay Formation

Cited by 26 publications

References 48 publications

TOUGH3-FLAC3D: a modeling approach for parallel computing of fluid flow and geomechanics

TOUGH3-FLAC3D: a modeling approach for parallel computing of fluid flow and geomechanics

Chemo‐Mechanical Coupling in Fractured Shale With Water and Hydrocarbon Flow

Modelling the water injection induced fault slip and its application to in-situ stress estimation

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