Evolving geometries, topologies, and apertures in fracture networks: Quantitative insights from lattice modeling

IF 3.2 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Bakul Mathur, Rahul Prabhakaran, Daniel Koehn
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引用次数: 0

Abstract

Fracture networks are crucial in controlling rock mass permeability. Some of the important features of the fracture networks like the density, interconnectivity, spatial distribution, and fracture apertures determine the success of the subsurface operations. Fracture networks can be studied with analogue studies, physical experiments, and numerical modeling. In this study, we analyse the evolution of a two-dimensional fracture network under gravitational and shear loads using the lattice modeling capabilities of the microstructural modeling environment “Elle”. The simulation cases include varying gravitational loads and Young’s moduli of the formations. The topological progression of the modeled fracture network from isolated to interconnected nodes depicts a realistic network evolution process. The study shows that the rock stiffness exhibits a direct correlation with the number of fractures influencing the average aperture size of the network. A higher gravity load resulted in the development of a sparse fracture network. Stiffer rock models also showed an early onset of fracturing.

断裂网络中不断演变的几何结构、拓扑结构和孔隙:晶格建模的定量见解
裂缝网络是控制岩体渗透率的关键。裂缝网络的一些重要特征,如密度、连通性、空间分布和裂缝孔径,决定了地下作业的成功。裂缝网络可以通过模拟研究、物理实验和数值模拟来研究。在这项研究中,我们使用微结构建模环境“Elle”的晶格建模功能分析了重力和剪切载荷下二维裂缝网络的演化。模拟的情况包括不同的重力载荷和地层的杨氏模量。模拟的裂缝网络从孤立节点到互联节点的拓扑进程描述了一个真实的网络演化过程。研究表明,岩石刚度与影响网络平均孔径大小的裂缝数直接相关。较高的重力载荷导致稀疏裂缝网络的形成。更硬的岩石模型也显示了早期的破裂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Forces in mechanics
Forces in mechanics Mechanics of Materials
CiteScore
3.50
自引率
0.00%
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0
审稿时长
52 days
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