Petroleum Science >2023, Issue6: - DOI: https://doi.org/10.1016/j.petsci.2023.07.014
Visualization of hydraulic fracture interacting with pre-existing fracture Open Access
文章信息
作者:Zi-Xiao Xie, Xiao-Guang Wu, Teng-Da Long, Zhong-Wei Huang, Gen-Sheng Li, Wen-Chao Zou, Zhao-Wei Sun
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引用方式:Zi-Xiao Xie, Xiao-Guang Wu, Teng-Da Long, Zhong-Wei Huang, Gen-Sheng Li, Wen-Chao Zou, Zhao-Wei Sun, Visualization of hydraulic fracture interacting with pre-existing fracture, Petroleum Science, Volume 20, Issue 6, 2023, https://doi.org/10.1016/j.petsci.2023.07.014.
文章摘要
Abstract: Hydraulic fracturing is considered the main stimulation method to develop shale gas reservoirs. Due to its strong heterogeneity, the shale gas formation is typically embedded with geological discontinuities such as bedding planes and natural fractures. Many researchers realized that the interaction between natural fractures and hydraulic fractures plays a crucial role in generating a complex fracture network. In this paper, true tri-axial hydraulic fracturing tests were performed on polymethyl methacrylate (PMMA), on which pre-existing fracture was pre-manufactured to simulate natural fracture. A cohesive model has been developed to verify the results of the experimental tests. The key findings demonstrate that the experimental results agreed well with the numerical simulation outcomes where three main interaction modes were observed: crossing; being arrested by opening the pre-existing fracture; being arrested without dilating the pre-existing fracture. Crossing behavior is more likely to occur with the approaching angle, horizontal stress difference, and injection rate increase. Furthermore, the higher flow rate might assist in reactivating the natural fractures where both sides of the pre-existing fractures were reactivated as the injection rate increased from 5 to 20 mL/min. Additionally, hydraulic fractures show a tendency to extend vertically rather than along the direction of maximum horizontal stress when they are first terminated at the interface. This research may contribute to the field application of hydraulic fracturing in shale gas formation.
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Keywords: Hydraulic fracturing; Natural fracture; Fracture propagation; Interaction mode; PMMA