Complex Fluid-Driven Fractures Caused by Crack-Parallel Stress

IF 4.6 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Wenfeng Li, Luke P. Frash, J. William Carey, Nathan J. Welch, Meng Meng, Hari S. Viswanathan
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引用次数: 0

Abstract

Managing fluid-driven fracture networks is crucial for subsurface resource utilization, yet the current understanding of the key controlling factors remains insufficient. While geologic discontinuities have been shown to significantly influence fracture network complexity, this study identifies another major contributor. We conducted a new set of experiments using a transparent true triaxial cell, which enabled video recording of the temporal evolution of fluid-driven fracture paths. Using pseudo-2D samples without macroscale structural discontinuities, we observed multiple occurrences of hydraulic fracture curving and branching under anisotropic boundary stresses. We proposed a theoretical model demonstrating that the stress parallel to the crack line in the solid matrix near the crack tip (i.e., the T-stress) accounts for the observed fracture curving behavior. This finding suggests that T-stress is an additional mechanism contributing to the complexity of fluid-driven fracture networks in the subsurface, besides the geologic discontinuities.
管理流体驱动的断裂网络对地下资源的利用至关重要,但目前对关键控制因素的了解仍然不足。虽然地质不连续性已被证明对断裂网络的复杂性有显著影响,但本研究发现了另一个主要因素。我们使用透明的真正三轴样品池进行了一组新的实验,该样品池能够对流体驱动的断裂路径的时间演化进行视频记录。通过使用无宏观结构不连续性的伪二维样本,我们观察到在各向异性边界应力作用下出现了多种水力压裂弯曲和分支现象。我们提出了一个理论模型,证明在裂纹尖端附近的固体基质中与裂纹线平行的应力(即 T 应力)是所观察到的裂纹弯曲行为的原因。这一发现表明,除了地质不连续性之外,T应力是造成地下流体驱动断裂网络复杂性的另一种机制。
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来源期刊
Geophysical Research Letters
Geophysical Research Letters 地学-地球科学综合
CiteScore
9.00
自引率
9.60%
发文量
1588
审稿时长
2.2 months
期刊介绍: Geophysical Research Letters (GRL) publishes high-impact, innovative, and timely research on major scientific advances in all the major geoscience disciplines. Papers are communications-length articles and should have broad and immediate implications in their discipline or across the geosciences. GRLmaintains the fastest turn-around of all high-impact publications in the geosciences and works closely with authors to ensure broad visibility of top papers.
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