首页|期刊导航|油气地质与采收率|CO2-油、水-油两相及CO2-水-油三相驱替实验对比研究

CO2-油、水-油两相及CO2-水-油三相驱替实验对比研究OA

Comparative study on CO2-oil,water-oil two-phase and CO2-water-oil three-phase displacement experiments

中文摘要英文摘要

针对高含水期油藏剩余油难以动用及CO2封存稳定性不足的问题,基于真实砂岩CT扫描构建刻蚀图案,加工获得玻璃刻蚀微模型,并搭建高温高压(50℃、6.0 MPa)可视化微流控实验体系,依次开展CO2-油、水-油两相及CO2-水-油三相驱替实验,实现多相流动过程的实时可视化与饱和度定量计算.结果表明:相同驱替速率下,CO2-油两相驱替受毛细管力控制显著,前缘在毛细管力阈值差与黏度比不利作用下呈不稳定推进,易发生气窜,残余油饱和度为0.70,CO2封存饱和度为0.30;水-油两相呈活塞式推进,水锁效应与毛细管力共同形成以"H"型柱状段塞为主的残余油分布,残余油饱和度降至0.21;水驱后再注CO2时,形成"气驱水、水再驱油"的双重驱替机理,水膜的润湿阻隔与油膜沿界面的铺展协同作用有效抑制前缘失稳并增强残余油动用,残余油饱和度进一步降至0.15,CO2封存饱和度升至0.45.研究表明,"先水驱-后注CO2"的策略可兼顾提高采收率与增强CO2滞留,有助于高含水期油藏CO2注入工艺的优化设计与封存安全性提升.

To address the challenges of mobilizing residual oil and ensuring the stability of CO2 sequestration in high-water-cut reservoirs,based on CT scans of real sandstone,etching patterns were constructed and used to fabricate glass-etched micromodels.A high-temperature and high-pressure(50 ℃,6.0 MPa)visual microfluidic experimental system was then set up.Displacement experiments were conducted sequentially for CO2-oil and water-oil two-phase systems,as well as for CO2-water-oil three-phase systems,enabling real-time visualization of multiphase flow processes and quantitative calculation of saturation.The results show that the CO2-oil two-phase displacement is strongly governed by capillary forces under the same injection rate.Due to the adverse effects of the capillary force threshold difference and viscosity ratio,the displacement front advances in an unstable manner,making it prone to gas channeling.The residual oil saturation is 0.70,and the CO2 sequestration saturation is 0.30.The water-oil two-phase displacement advances in a piston-like manner.Under the combined effects of water blockage and capillary forces,the residual oil primarily distributes as"H"-shaped columnar slugs,with the saturation decreasing to 0.21.When CO2 is injected after water flooding,a dual-displacement mechanism of"CO2 displacing water and water re-displacing oil"is formed.The synergistic action of the wetting barrier from the water film and the spreading of the oil film along the interface effectively suppresses front instability and enhances the mobilization of residual oil,further reducing the residual oil saturation to 0.15 and increasing the CO2 sequestration saturation to 0.45.The study indicates that the strategy of"water flooding followed by CO2 injection"simultaneously achieves enhanced oil recovery and increased CO2 retention,providing valuable insights for optimizing CO2 injection strategies and improving sequestration safety in high-water-cut reservoirs.

张曙旋;陈黎;陶文铨

西安交通大学 热流科学与工程教育部重点实验室,陕西 西安 710049西安交通大学 热流科学与工程教育部重点实验室,陕西 西安 710049西安交通大学 热流科学与工程教育部重点实验室,陕西 西安 710049

能源科技

CO2驱替微流控实验残余油分布海恩斯跳跃CO2封存

CO2 displacementmicrofluidic experimentresidual oil distributionHaines jumpCO2 sequestration

《油气地质与采收率》 2026 (1)

195-206,12

国家自然科学基金项目"基于高含水油藏去碳目标导向的CO2捕集-驱油-埋存一体化理论及技术研究"(42141011).

10.13673/j.pgre.202509033

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