Natural-Fracture Reactivation in Shale Gas Reservoir and Resulting Microseismicity

Journal of Canadian Petroleum Technology Pub Date : 2015-12-01 DOI:10.2118/178437-PA

A. S. A. Shahid, B. Wassing, P. Fokker, F. Verga

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引用次数: 8

Abstract

A geomechanical and fluid-flow coupled model was developed to simulate natural-fracture-network reactivation during hydraulicfracturing treatments in shale gas reservoirs. The fractures were modelled using the continuum approach in a commercial finitedifference code, labeled the "softening ubiquitous joints" model, with randomly distributed strength parameters to describe heterogeneity along the fracture plane. The models allow for intersecting fractures to represent realistic scenarios. The permeability values in the fractures are dynamically updated during the simulations together with the reversible tensile opening because of elastic response and irreversible shear opening caused by plastic deformations. The reactivation of the fracture network resulted in high permeability along these fracture planes. The developed model can predict microseismic events caused by slip on the fracture planes. The magnitude levels of these microseismic events are comparable with the levels observed in events monitored by use of geophone arrays during hydraulic-fracturing treatments for different shale gas reservoirs. © 2015 Society of Petroleum Engineers.

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页岩气储层天然裂缝再激活及其引发的微地震活动

建立了一个地质力学和流体流动耦合模型，以模拟页岩气藏水力压裂过程中天然裂缝网络的再激活。采用商业有限差分代码中的连续体方法对裂缝进行建模，标记为“软化无处不在的接缝”模型，并使用随机分布的强度参数来描述裂缝面上的非均质性。这些模型允许相交的裂缝来代表真实的场景。在模拟过程中，裂缝的渗透率值与弹性响应引起的可逆拉伸张开和塑性变形引起的不可逆剪切张开一起动态更新。裂缝网络的重新激活导致沿这些裂缝面的高渗透率。所建立的模型可以预测裂缝面上滑动引起的微地震事件。这些微地震事件的震级与在不同页岩气储层水力压裂过程中使用检波器阵列监测到的事件级别相当。©2015美国石油工程师学会。

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Journal of Canadian Petroleum Technology 工程技术-工程：化工

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11.4 months