基于最小应变能密度因子断裂准则的岩石裂纹水力压裂研究

Hydraulic fracture prediction theory based on the minimumstrain energy density criterion

  • 摘要: 建立了考虑裂纹尖端非奇异项T应力的最小应变能密度因子断裂准则, 研究了不同裂纹类型条件下T应力和泊松比对起裂角的影响, 结果表明裂纹起裂角不仅与奇异项应力强度因子有关, 而且还需要考虑非奇异项T应力和泊松比的影响作用.同时计算了含井筒对称双裂纹水力压裂模型的起裂角和临界水压, 表明依据本文断裂准则计算得到理论解与实验结果吻合良好.在此基础上, 利用该准则从理论上分析了临界裂纹区尺寸、T应力、比奥系数、侧压系数、泊松比等因素对水力压裂裂纹起裂特性的影响.参数分析表明: 临界裂纹区尺寸、T应力和侧压系数对临界水压和临界起裂角有显著影响.临界水压随着泊松比增大而减小, 而临界起裂角呈现相反变化趋势.比奥系数对临界起裂角没有影响, 但是在高水压条件下对起裂角具有显著影响.

     

    Abstract: Hydraulic fracturing is a promising technique used in oil and gas reservoirs, enhanced geothermal systems, and coal gas production.Although its use is widespread, many aspects of hydraulic fracturing are still not well understood and need to be further investigated to achieve increases in oil and gas production while mitigating the adverse aspects of hydraulic fracturing.Understanding how hydraulic pressure extends preexisting fractures and forms a complex fracture network is essential for the design and treatment of hydraulic fracturing.Critical water pressure and fracture initiation angle are two important parameters involved in the hydraulic fracture propagation process and production from a well.In the present study, a minimum strain energy density criterion, which considers the effects of T-stress and Poisson's ratio, was proposed to analyze fracture initiation during hydraulic fracturing.The fracture initiation angle for different crack types was investigated using the proposed theoretical method, and the results indicate that the fracture initiation angle is not only related to the stress intensity factor but also affected by the T-stress and Poisson's ratio.The critical water pressure and critical initiation angle for two symmetric radial cracks emanating from a pressurized borehole were investigated, and the theoretical results were consistent with the experimental results.Through the proposed theoretical method, the influence of T-stress, radius of the fracture process zone, Biot's coefficient, lateral pressure coefficient and Poisson's ratio on the hydraulic fracturing behavior was analyzed.Parameter analysis indicates that the radius of the fracture process zone, T-stress, and lateral pressure coefficient play an important role in the critical initiation angle and critical water pressure.The critical water pressure increases with the decrement of Poisson's ratio, whereas the critical initiation angle shows the opposite trend.Biot's coefficient has no effect on the critical initiation angle but has a significant influence on the fracture initiation angle under high water pressure.The theoretical model enables a comprehensive understanding of the characteristics of hydraulic fracturing under complex loading conditions.The results also provided a basis for quantitative investigations of the engineering design of hydraulic fracturing treatments.

     

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