A Time-Continuation Solver for Hydraulic Fracture Propagation

G. Ren, R. Younis
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Abstract

We present an efficient time-continuation scheme for fluid-driven fracture propagation problems in the frame-work of the extended finite element method (XFEM). The fully coupled, fully implicit hydro-mechanical system is solved in conjunction with the linear elastic fracture propagation criterion by the Newton-Raphson method. Therefore, at the end of each time-step solve, the model ensures the energy release rate of weakest fracture tips within the equilibrium propagation regime. Besides, an initialization procedure for newly created fracture space as well as a priori estimate of stress intensity factor (SIF) growth rates are also developed to further improve the solver performance. We validate the model by the analytical solution and extend the problem to the multiple fracture propagation where stress shadow phenomenon occur.
水力裂缝扩展的时间连续求解器
在扩展有限元法(XFEM)框架下,提出了一种求解流体驱动裂缝扩展问题的有效时间延拓方案。结合线弹性断裂扩展准则,采用Newton-Raphson方法求解了全耦合、全隐式的水-机械系统。因此,在每个时间步解结束时,该模型保证了最弱断裂尖端的能量释放率处于平衡扩展状态。此外,为了进一步提高求解器的性能,还提出了新创建裂缝空间的初始化程序和应力强度因子(SIF)增长率的先验估计。通过解析解对模型进行了验证,并将问题推广到存在应力阴影现象的多重裂缝扩展中。
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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