Modelling stress-dependent single and multi-phase flows in fractured porous media based on an immersed-body method with mesh adaptivity

Obeysekara A.; Lei Q.; Salinas P.; Pavlidis D.; Xiang J.; Latham J-P; Pain C. C.

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Modelling stress-dependent single and multi-phase flows in fractured porous media based on an immersed-body method with mesh adaptivity

机译：基于网格自适应的浸入体方法对裂缝性多孔介质中应力相关的单相和多相流进行建模

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This paper presents a novel approach for hydromechanical modelling of fractured rocks by linking a finite-discrete element solid model with a control volume-finite element fluid model based on an immersed-body approach. The adaptive meshing capability permits flow withinear fractures to be accurately captured by locally-refined mesh. The model is validated against analytical solutions for single-phase flow through a smooth/ rough fracture and reported numerical solutions for multi-phase flow through intersecting fractures. Examples of modelling single- and multi-phase flows through fracture networks under in situ stresses are further presented, illustrating the important geomechanical effects on the hydrological behaviour of fractured porous media.

机译：本文通过将有限离散实体模型与基于沉体法的控制体积有限元流体模型相链接，提出了一种用于裂隙岩体流体力学建模的新方法。自适应的网格划分功能允许通过局部优化的网格精确捕获裂缝内部/附近的流动。该模型针对通过光滑/粗糙裂缝的单相流的解析解和通过相交裂缝的多相流的数值解进行了验证。进一步给出了在现场应力作用下通过裂隙网络模拟单相和多相流动的例子，说明了对裂隙多孔介质水文行为的重要地质力学影响。

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《Computers and Geotechnics》 |2018年第11期|229-241|共13页
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Obeysekara A.; Lei Q.; Salinas P.; Pavlidis D.; Xiang J.; Latham J-P; Pain C. C.;
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1. A three-dimensional mesh-free model for analyzing multi-phase flow in deforming porous media [J] . Samimi Soodeh, Pak Ali Meccanica: Journal of the Italian Association of Theoretical and Applied Mechanics . 2016,第3期

机译：用于分析多孔介质变形中多相流的三维无网格模型
2. Adaptive Mesh Refinement for One-Dimensional Three-Phase Flows in Heterogeneous Fractured Porous Media [J] . Luo HS, Wang XH, Quintard M Numerical Heat Transfer, Part B. Fundamentals: An International Journal of Computation and Methodology . 2008,第5a6期

机译：非均质裂隙多孔介质中一维三相流的自适应网格细化
3. Adaptive Mesh Refinement for One-Dimensional Three-Phase Flows in Heterogeneous Fractured Porous Media [J] . Luo HS, Wang XH, Quintard M Numerical Heat Transfer, Part B. Fundamentals: An International Journal of Computation and Methodology . 2008,第6期

机译：非均质裂隙多孔介质中一维三相流的自适应网格细化
4. A Discontinuous Overlapping Control Volume Finite Element Method for Multi-Phase Porous Media Flow Using Dynamic Unstructured Mesh Optimization [C] . P.Salinas, J.R.Percival, D.Pavlidis SPE Reservoir Simulation Symposium . 2015

机译：使用动态非结构化网格优化的多相多孔介质流量的不连续重叠控制量有限元方法
5. Pore-scale imaging and lattice Boltzmann modeling of single- and multi-phase flow in fractured and mixed-wet permeable media. [D] . Landry, Christopher James. 2013

机译：压裂和混合湿渗透介质中单相和多相流的孔隙度成像和晶格Boltzmann建模。
6. Stress-Dependent Pore Deformation Effects on Multiphase Flow Properties of Porous Media [O] . Amir H. Haghi*, Richard Chalaturnyk, Stephen Talman -1

机译：应力相关的孔隙变形对多孔介质多相流动特性的影响
7. Modelling stress-dependent single and multi-phase flows in fractured porous media based on an immersed-body method with mesh adaptivity [O] . A. Obeysekara, Q. Lei, P. Salinas, 2018

机译：基于浸入物体法在骨折 - 体介质中进行建模应力依赖的单相流量，基于浸入物体方法，具有网眼自适应
8. Practical Method for Modeling Fluid and Heat Flow in Fractured Porous Media [R] . Pruess, K., Narasimhan, T. N. 1982

机译：压裂多孔介质中流体和热流模型的实用方法

Modelling stress-dependent single and multi-phase flows in fractured porous media based on an immersed-body method with mesh adaptivity

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