Effect of phase change of CO2 on injection-induced fault slip in granite
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更新:2026-07-14 18:56:34 浏览:0次
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摘要
CO2 injection-induced fracture and fault activation, potentially leading to seismic events, is a significant concern requiring careful risk assessment. The injected CO2 readily undergoes phase changes (gas, liquid, supercritical) depending on pressure-temperature conditions, yet the mechanical impact of these phase transitions on fault stability remains poorly understood. This study experimentally investigates the effect of CO2 phase change on injection-induced fault slip behavior in granite. Results demonstrate that the gas-liquid phase transition during injection could result in the dynamic weakening of the fault friction, and then may induce the stick-slip instability with the continuous injection. In stark contrast, the gas-supercritical phase transition triggers a quick increase in pore pressure, acting as the primary driver for substantial stick-slip. It is noted that, the gas-supercritical phase transition will further lead to a net strengthen of the fault's shear strength, and then causes the fault become stable after several stick-slip. These findings reveal that the phase behavior of CO2 fundamentally alters fault mechanics, promoting instability and hardening compared to conventional single-phase injection fluids.
关键词
Fault slip,injection,friction,CO2 phase change
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