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| Citation: | Tan Zhongjian, Deng Jinhui, Zhang Xiangqian, Guo Mingyu, Li Hongru, Du He, Feng Jianwei, 2023. Quantitative Characterization of Fractures under Volcanic Thermal Expansion Based on Thermal-Mechanical Coupling Analysis. Earth Science, 48(7): 2665-2677. doi: 10.3799/dqkx.2022.110
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The Bonan region is a hot spot for oil and gas exploration and development in the Bohai Sea area in recent years. Though the Cenozoic volcanic activity provides advantageous conditions for oil and gas reservoir formation, it also poses a problem for oil and gas field development. The internal non-homogeneous, high-temperature and intense volcanic channels have affected the fracture development of the surrounding strata, triggering serious fractured well leaks resulted in huge economic losses. Based on the logging, core and seismic data, we identify the petrographic characteristics of the volcanic rocks and analyze the fracture development of the surrounding strata. The boundary conditions of the temperature field of volcanic activity are determined by means of core mineral analysis and thin section observation. In addition, applying the principle of thermodynamic coupling and the finite element numerical simulation method, the thermal expansion fractures of rocks caused by volcanic activity are quantitatively predicted, based on the law of energy conservation and geomechanics. Based on the thermodynamic coupling analysis of the influence range of volcanic channels on perimeter fracture development, the results have important reference values for drilling safety and volcano-related reservoir prediction in Bohai oil fields.
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