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A review of thermo-hydro-mechanical modeling of coupled processes in fractured rock: From continuum to discontinuum perspective

Iman Vaezi, Keita Yoshioka, Silvia De Simone, Berta María Gómez-Castro, Adriana Paluszny, Mohammadreza Jalali, Inga Berre, Jonny Rutqvist, Ki‐Bok Min, Qinghua Lei, Roman Y. Makhnenko, Mengsu Hu, Chin‐Fu Tsang, Víctor Vilarrasa

2025Journal of Rock Mechanics and Geotechnical Engineering26 citationsDOIOpen Access PDF

Abstract

Coupled thermo-hydro-mechanical (THM) processes in fractured rock are playing a crucial role in geoscience and geoengineering applications. Diverse and conceptually distinct approaches have emerged over the past decades in both continuum and discontinuum perspectives leading to significant progress in their comprehending and modeling. This review paper offers an integrated perspective on existing modeling methodologies providing guidance for model selection based on the initial and boundary conditions. By comparing various models, one can better assess the uncertainties in predictions, particularly those related to the conceptual models. The review explores how these methodologies have significantly enhanced the fundamental understanding of how fractures respond to fluid injection and production, and improved predictive capabilities pertaining to coupled processes within fractured systems. It emphasizes the importance of utilizing advanced computational technologies and thoroughly considering fundamental theories and principles established through past experimental evidence and practical experience. The selection and calibration of model parameters should be based on typical ranges and applied to the specific conditions of applications. The challenges arising from inherent heterogeneity and uncertainties, nonlinear THM coupled processes, scale dependence, and computational limitations in representing field scale fractures are discussed. Realizing potential advances on computational capacity calls for methodical conceptualization, mathematical modeling, selection of numerical solution strategies, implementation, and calibration to foster simulation outcomes that intricately reflect the nuanced complexities of geological phenomena. Future research efforts should focus on innovative approaches to tackle the hurdles and advance the state-of-the-art in this critical field of study.

Topics & Concepts

GeologyPerspective (graphical)Geotechnical engineeringMathematicsGeometryRock Mechanics and ModelingHydraulic Fracturing and Reservoir AnalysisDrilling and Well Engineering