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首页» 过刊浏览» 2023» Vol.8» Issue(5) 577-587     DOI : 10.3969/j.issn.2096-1693.2023.05.055
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力学化学耦合的硬脆性泥页岩微裂纹扩展机理研究进展与思考
金衍, 张亚洲, 卢运虎
1 中国石油大学( 北京) 石油工程学院,北京 102249 2 中国石油大学( 北京) 油气资源与工程全国重点实验室,北京 102249
Progress and reflections on the microcrack growth mechanism of hard-brittle shale under chemical-mechanical couplings
JIN Yan, ZHANG Yazhou, LU Yunhu.
1 College of Petroleum Engineering, China University of Petroleum, Beijing 102249, China 2 National Key Laboratory of Petroleum Resources and Engineering, China University of Petroleum, Beijing 102249, China

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摘要  储层岩石微裂纹等缺陷在化学力学环境中的时序演变,是造成岩石强度劣化乃至宏观断裂失稳的关键原因。探究微裂纹扩展诱导损伤演化、损伤积累诱发失稳破坏这一跨尺度行为的发展过程,对保障井壁围岩稳定性、高效地勘探开发油气资源具有重要意义。首先介绍了岩石中微裂纹扩展的3 类基本行为与特征,并提出页岩的水化过程即为内部微裂纹不断发生更加活跃地亚临界扩展这一机制,井壁围岩的垮塌失稳更多地表现为微裂纹从亚临界扩展到动态断裂的时序损伤演化。基于这一认识,在井壁稳定研究中,为揭示岩石内部微裂纹在化学力学耦合下的亚临界断裂机理,定量表征损伤演化过程和失稳突变行为,团队提出了“化学断裂”这一力学概念,内容聚焦于化学力学环境中微裂纹扩展的断裂力学理论,以及岩石力学参数对结构损伤演化特征的响应规律。然后分别从理论模型和试验测试2 个角度,对岩石化学力学耦合的微裂纹亚临界断裂机理的研究现状进行了梳理与总结。最后列出了当前研究工作中所面临的几个具体问题与挑战,并阐述了化学力学环境中脆性岩石微裂纹扩展演化和断裂机制的新思考与展望。
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关键词 : 井壁稳定,力化耦合,亚临界扩展,化学断裂力学
Abstract

The temporal evolution of reservoir rock microcracks and other defects in the chemical-mechanical environment is the key issue causing rock strength deterioration and even macroscopic fracturing. It is of great significance to explore the development process of the cross-scale behavior of damage evolution induced by microcrack growth and destabilization damage induced by damage accumulation to ensure the stability of rocks surrounding the wellbore to efficiently explore and develop oil and gas resources. Firstly, three basic behaviors and characteristics of microcrack growth in rocks are introduced, and it is proposed that the hydration process of shale is the mechanism by which the internal microcracks continuously undergo more active subcritical growth, and the collapse instability of rocks surrounding the wellbore is more often manifested as the time-sequential damage evolution of microcracks from subcritical growth to dynamic fracture. Based on this understanding of the study of wellbore stability, in order to reveal the subcritical fracture mechanism of microcracks in rock under chemical-mechanical coupling, and to quantitatively characterize the damage evolution process and destabilizing mutation behaviors, the research team proposes the concept of "Chemical Fracture", which focuses on the fracture mechanics theory of microcrack growth in a chemical-mechanical environment, and the response of rock mechanical parameters to the structural damage evolution. Then the current research status of the subcritical fracture mechanism of rock chemical-mechanical coupled microcracks is summarized from the perspectives of theoretical modeling and experimental testing, respectively. Finally, several specific problems and challenges faced in the current research work are listed, and new thoughts and perspectives into microcrack growth evolution and fracture mechanisms of brittle rocks in chemical-mechanical environments are elaborated.


Key words: wellbore stability; chemical-mechanical coupling; subcritical crack growth; chemical fracture mechanics
收稿日期: 2023-10-31     
PACS:    
基金资助:国家自然科学基金项目“深层脆性页岩井壁失稳的化学断裂机理与控制研究”(52074314) 资助
通讯作者: jiny@cup.edu.cn
引用本文:   
金衍, 张亚洲, 卢运虎. 力学化学耦合的硬脆性泥页岩微裂纹扩展机理研究进展与思考. 石油科学通报, 2023, 05: 577-587 JIN Yan, ZHANG Yazhou, LU Yunhu. Progress and reflections on the microcrack growth mechanism of hard-brittle shale under chemical-mechanical couplings. Petroleum Science Bulletin, 2023, 05: 577-587.
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