基质断裂耦合下致密油/页岩油的动态渗流实验

IF 7 Q1 ENERGY & FUELS
Meng DU , Zhengming YANG , Weifeng LYU , Zhongcheng LI , Guofeng WANG , Xinliang CHEN , Xiang QI , Lanlan YAO , Yuhao ZHANG , Ninghong JIA , Haibo LI , Yilin CHANG , Xu HUO
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引用次数: 0

摘要

结合核磁共振(NMR)和CT扫描,建立了动态位移与浸润相结合的物理模拟方法。分析了孔喉动态浸润致密油/页岩油的微观产油机理及动态浸润开发效果的影响因素。模拟了压裂-浸润-回流-增产一体化的动态渗流过程,揭示了不同开发阶段的动态增产特征及其对提高石油采收率(EOR)的贡献。致密/页岩油藏的渗流可分为三个阶段:由大孔隙和裂缝快速位移产油的强位移、弱浸润阶段;由小孔隙反向浸润缓慢产油的弱位移、强浸润阶段;以及处于动态平衡的弱位移、弱浸润阶段。位移压力越大,位移采收率越高,而浸润采收率越低。但如果位移压力过大,注入水容易突破前沿,降低回收率。渗透率越高,浸润回收率和位移回收率越高,浸润平衡时间越短,最终回收率越高。裂缝能有效增加基质与水的浸润接触面积,降低油水渗流阻力,促进基质与裂缝间的油水位移,提高基质的排油率和采收率。压裂后的浸泡有利于流体的浸润置换和储能;同时,有效利用回流液的携带和开采阶段的位移也是提高采油率的关键。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Experiment of dynamic seepage of tight/shale oil under matrix fracture coupling

A physical simulation method with a combination of dynamic displacement and imbibition was established by integrating nuclear magnetic resonance (NMR) and CT scanning. The microscopic production mechanism of tight/shale oil in pore throat by dynamic imbibition and the influencing factors on the development effect of dynamic imbibition were analyzed. The dynamic seepage process of fracking–soaking–backflow–production integration was simulated, which reveals the dynamic production characteristics at different development stages and their contribution to enhancing oil recovery (EOR). The seepage of tight/shale reservoirs can be divided into three stages: strong displacement and weak imbibition as oil produced rapidly by displacement from macropores and fractures, weak displacement and strong imbibition as oil produced slowly by reverse imbibition from small pores, and weak displacement and weak imbibition at dynamic equilibrium. The greater displacement pressure results in the higher displacement recovery and the lower imbibition recovery. However, if the displacement pressure is too high, the injected water is easy to break through the front and reduce the recovery degree. The higher the permeability, the greater the imbibition and displacement recovery, the shorter the time of imbibition balance, and the higher the final recovery. The fractures can effectively increase the imbibition contact area between matrix and water, reduce the oil-water seepage resistance, promote the oil-water displacement between matrix and fracture, and improve the oil displacement rate and recovery of the matrix. The soaking after fracturing is beneficial to the imbibition replacement and energy storage of the fluid; also, the effective use of the carrying of the backflow fluid and the displacement in the mining stage is the key to enhancing oil recovery.

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CiteScore
11.50
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