上海交通大学学报(自然版) ›› 2011, Vol. 45 ›› Issue (05): 722-727.

• 建筑科学 • 上一篇    下一篇

水压致裂过程的弹塑性细胞自动机模拟

潘鹏志1,冯夏庭1,吴红晓2,孙峰1,周辉1   

  1. (1. 中国科学院 武汉岩土力学研究所 岩土力学与工程国家重点实验室, 湖北 武汉  430071;2. 第二炮兵工程设计研究院, 北京 100011)
  • 出版日期:2011-05-30 发布日期:2011-05-30
  • 基金资助:

    国家重点基础研究发展规划(973)项目(2010CB732006),国家自然科学基金项目(50709036,10972231)

Modeling Hydraulic Failure Process Using Elasto-Plastic Cellular Automaton

 PAN  Peng-Zhi-1, FENG  Xia-Ting-1, WU  Hong-Xiao-2, SUN  Feng-1, ZHOU  Hui-1   

  1. (1. State Key Laboratory of Geomechanics and Geotechnical Engineering, Institute of Rock and  Soil Mechanics, Chinese Academy of Sciences, Wuhan 430071, China;2. Second Artillery Engineering Design and Research Institute, Beijing 100011, China )
  • Online:2011-05-30 Published:2011-05-30

摘要:  利用自行研发的弹塑性细胞自动机模型和模拟系统,建立了非均质岩石水压致裂过程的细胞自动机模拟方法.该方法能够反映流体在水力梯度作用下进入新生微裂隙、形成新的流体渗流边界而对该边界产生张拉效应,并引起微裂隙的进一步扩展、贯通,最终形成宏观裂纹的过程,可以方便地进行水压致裂过程中边界条件和水力参数的动态更新.同时,研究了不同均质度和井筒内径对水压致裂行为的影响.结果表明,随着井筒内径增加,极限水压力降低,而破裂模式基本相似,模拟结果与典型实验现象吻合较好.

关键词: 渗流与应力耦合, 弹塑性细胞自动机, 水压致裂, 岩石破裂过程, 非均质性

Abstract: A self-developed numerical tool, i.e. an elasto-plastic cellular automaton (EPCA) was used to simulate the hydraulic fracturing process of rocks. The modeling method of hydraulic fracturing process of heterogeneous rocks with cellular automaton was developed. With the increase of fluid load, fluid will go into the new cracks. The new fluid seepage boundaries will be formed and the tensile stress induced by fluid will be applied on the crack boundaries. In this process, the mechanical properties and boundary conditions will be updated dynamically. The cellular automaton, which is based on the localization theory, makes this operation more conveniently. With this method, the failure process of wellbore rock specimen under hydraulic pressure was simulated, by considering different heterogeneity and different inner radius of the wellbore. It is concluded that, in hydraulic fracturing process, the critical fluid pressure, crack propagation and final failure patterns etc. are greatly influenced by the heterogeneity of the rock, the boundary geometry etc.

Key words: coupled hydro-mechanics, elastoplastic cellular automaton (EPCA), hydro-fracturing, rock failure process, heterogeneity

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