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1. Pore-scale simulation of flow in porous rocks for wall shear stress analysis

   Injecting CO ₂ into geological reservoirs presents a promising strategy to reduce CO ₂ in the atmosphere. Recently, several studies have accommodated...

   Yusron Feriadi, Muhammad Rizqie Arbie, ... Fariduzzaman in Modeling Earth Systems and Environment

   Article 28 May 2024
   

2. Performance studies of the fixed stress split algorithm for immiscible two-phase flow coupled with linear poromechanics

   In this work, we measure the performance of the fixed stress split algorithm for the immiscible water-oil flow coupled with linear poromechanics. The...

   Saumik Dana, Mohamad Jammoul, Mary F. Wheeler in Computational Geosciences

   Article 30 October 2021
   

3. Dynamic characterization of tailing dam using fully coupled dynamic analysis with different boundary conditions — a case study

   The seismic response analysis of a tailing dam is studied using a fully coupled effective stress approach in conjunction with an advanced multi yield...

   Thanikella Vijayasri in Earthquake Engineering and Engineering Vibration

   Article 24 October 2023

4. Influence of contact characteristics on nonlinear flow and eddy development in three-dimensional fractures under normal stress

   In this study, a three-dimensional (3D) contact fracture model with different normal stresses is established by using artificial rough fractures. To...

   Ze Zhang, Shuhong Wang, ... Dongsheng Wang in Bulletin of Engineering Geology and the Environment

   Article 22 March 2024
   

5. Dynamic Coupled Hydromechanical Approach for Fractured Rock Mass Seepage Using Two-Dimensional Discontinuous Deformation Analysis

   This paper introduces the development of a dynamic seepage network method (DSN) within a two-dimensional discontinuous deformation analysis (2D-DDA)...

   Yingbin Zhang, Bing Hu, ... Pengcheng Yu in Rock Mechanics and Rock Engineering

   Article 18 January 2024
   

6. Global sensitivity analysis using multi-resolution polynomial chaos expansion for coupled Stokes–Darcy flow problems

   Determination of relevant model parameters is crucial for accurate mathematical modelling and efficient numerical simulation of a wide spectrum of...

   Ilja Kröker, Sergey Oladyshkin, Iryna Rybak in Computational Geosciences

   Article Open access 26 July 2023

7. Coupled Thermo-Hydro-Mechanical Processes in Fractured Rocks: Some Past Scientific Highlights and Future Research Directions

   Coupled thermo-hydro-mechanical (THM) processes in fractured rocks have been a topic of intense scientific research for more than 30 years. The...

   Chin-Fu Tsang in Rock Mechanics and Rock Engineering

   Article Open access 08 February 2024
   

8. Coupled Hydromechanical Modelling of a Vertical Hydraulic Sealing System Based on the Sandwich Principle

   For the shaft sealing of a repository for radioactive waste, a Sandwich sealing system was developed by KIT-CMM consisting of bentonite-based sealing...

   H. Shao, Ch. Roelke, ... J. Hesser in Rock Mechanics and Rock Engineering

   Article Open access 12 June 2023
   

9. Slope-scale landslide susceptibility assessment based on coupled models of frequency ratio and multiple regression analysis with limited historical hazards data

   Conducting a precise landslide susceptibility assessment at the slope scale is challenging due to complex parameters and limited historical hazards...

   Jianfeng Sun, Tiesheng Yan, ... Hui Xu in Natural Hazards

   Article 24 September 2023
   

10. Global Sensitivity Analysis of a Coupled Hydro-Economic Model and Groundwater Restriction Assessment

    Assessing impacts on coupled food-water systems that may emerge from water policies, changes in economic drivers and crop productivity requires an...

    José M. Rodríguez-Flores, Jorge A. Valero Fandiño, ... Josué Medellín-Azuara in Water Resources Management

    Article Open access 14 October 2022
    

11. Coupled Modeling

    Mohammad Ali Aghighi, Hamid Roshan in Encyclopedia of Mathematical Geosciences

    Reference work entry 2023
    

12. Combination of a Failure Index and a Dilatancy-Dependent Permeability Model in Hydro-Mechanically-Coupled Numerical Simulations of Argillaceous Rock Formations of the Callovo-Oxfordian (COx)

    Hydraulic-mechanical coupling in claystone is of great importance for repository research, as claystone is considered a possible host rock and...

    Eike Radeisen, Hua Shao, ... Wenqing Wang in Rock Mechanics and Rock Engineering

    Article Open access 15 April 2024
    

13. Hydro-Mechanically Coupled Numerical Modelling of Protective Water Barrier Pillars in Underground Coal Mines in India

    Protective water barrier pillars (PWBPs) are inter-mine barrier pillars. An adequate PWBP can protect active mine workings from the danger of...

    Ankush Galav, G. S. P. Singh, S. K. Sharma in Mine Water and the Environment

    Article 16 August 2023
    

14. Fully Coupled Thermo-hydro-mechanical Model for Wellbore Stability Analysis in Deep Gas-Bearing Unsaturated Formations Based on Thermodynamics

    A fully rigorous unsaturated thermo-hydro-mechanical (THM) coupling model based on non-equilibrium thermodynamics and continuum mechanics is...

    Tianshou Ma, **hua Liu, ... Dmitriy A. Martyushev in Rock Mechanics and Rock Engineering

    Article 14 January 2024
    

15. Numerical Modeling on Coupled THMC Processes in Fractured Rocks

    Since the early 1990s, numerous international collaboration projects like DECOVALEX (development of coupled models and their validation against...

    Zhihong Zhao in Coupled Thermo-Hydro-Mechanical-Chemical Processes in Fractured Rocks

    Chapter 2023
    

16. Relative dispersion and relative diffusivities in an ocean-wave coupled model of the North Sea

    The study analyzes the impact of various wave-induced processes on relative dispersion and diffusivities in the North Sea using OpenDrift, a...

    Luciana Villa Castrillón, Marcel Ricker, ... Emil V. Stanev in Ocean Dynamics

    Article Open access 03 June 2024
    

17. Fluid-Driven Debonding of Cement Interfaces of an Injector Well: A Coupled Thermo–Hydro–Mechanical Approach

    Fluid leakage caused by debonding at the cement interfaces driven by low-temperature fluids is recognized as a significant challenge to wellbore...

    Chenwang Gu, Yongcun Feng, ... **gen Deng in Rock Mechanics and Rock Engineering

    Article 28 February 2024
    

18. A coupled thermal–hydrological–mechanical model for geothermal energy extraction in fractured reservoirs

    Understanding fluid flow in fractured porous media under coupled thermal–hydrological–mechanical (THM) conditions is a fundamental aspect of...

    Tian Fang, Quanlin Feng, ... Kun Gao in Journal of Petroleum Exploration and Production Technology

    Article Open access 27 July 2023
    

19. A stabilized two-phase material point method for hydromechanically coupled large deformation problems

    The material point method (MPM) has been widely used in the simulation of large deformation problems involving hydromechanical coupling recently....

    **ong Tang, **npo Li, Siming He in Bulletin of Engineering Geology and the Environment

    Article 20 April 2024
    

20. Coupled Hydro-Mechanical Behaviour of Rock Joints During Normal and Shear Loading

    The hydraulic conductivity of rock joints is an important parameter controlling fluid flow in various rock engineering applications. The shearing and...

    M. A. Pirzada, M. Bahaaddini, ... H. Roshan in Rock Mechanics and Rock Engineering

    Article Open access 09 November 2022