注采扰动会导致碳酸盐岩储气库盖层微观孔隙结构发生不同程度的弹塑性变形,甚至会使盖层发生宏观破坏,从而导致盖层泄漏。针对储气库高速往复注采的特点,从地质特征、毛细管物性密封和宏观力学完整性三个方面出发,开展了注采条件下的盖层动态密封性评价。以Q储气库碳酸盐岩盖层为背景,通过开展注采条件下的动态密封性试验,明确了交变力学对于盖层动态密封性的影响,发现交变荷载下渗透率和突破压力呈现出下降—稳定—上升的趋势,当围压较大时,规律主要表现为下降—稳定;通过研究应力—应变曲线及声发射特征,明确了盖层疲劳破坏风险及声发射特征,表明注采条件下交变疲劳破坏风险较低;综合运用AHP和可拓学理论,对碳酸盐岩储气库盖层动态密封性进行综合评价,Q储气库评价为盖层动态密封性极好。评价体系的建立为碳酸盐岩储气库盖层动态密封性评价提供了科学依据。

 Injection-production disturbance will lead to varying degrees of elastic-plastic deformation of micro-pore structure of carbonate gas storage caprock, and even macro damage of the cap rock, resulting in cap rock leakage. According to the characteristics of high-speed reciprocating injection-production in gas storage, the dynamic sealing evaluation of caprock under injection-production conditions was carried out from geological features, capillary physical sealing and macro mechanical integrity. Taking the carbonate caprock of Q gas storage as the background, the influence of alternating mechanics on the dynamic sealing of caprock was clarified through the dynamic sealing test under injection-production conditions. It was found that under alternating load, the permeability and breakthrough pressure showed the trend of first decline-stability-rise. When the confining pressure was large, the law is mainly in the decline-stability stage; Through the stress-strain curve and acoustic emission characteristics, the fatigue failure risk and acoustic emission signal characteristics of caprock were defined, which showed that the alternating fatigue failure risk was low under injection-production conditions; Using AHP and extension theory comprehensively, the dynamic sealing of carbonate gas reservoir cap was evaluated. Q gas reservoir cap is evaluated as excellent dynamic sealing. The establishment of the evaluation system provides a scientific basis for the dynamic sealing evaluation of carbonate gas reservoir caprock.