x射线计算机断层扫描辅助研究混相CO2在层状砂岩多孔介质中的流动特性以提高采收率

Duraid Al-Bayati, A. Saeedi, Ipek Ktao, M. Myers, C. White, A. Mousavi, Q. Xie, C. Lagat
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引用次数: 1

摘要

垂向渗透率变化所反映的储层非均质性将对地下多相流动行为产生显著影响。在这种情况下,我们之前已经表明,在非混相驱过程中,低渗透层和高渗透层之间的交叉流动在决定油气产量方面对储层的表现起着重要作用。本文探讨了混相CO2驱层状砂岩多孔介质中横流对采油的贡献。我们对岩心进行了驱油实验,岩心样品是通过连接两个轴向分裂的半砂岩塞(渗透率分别为0.008和0.1 (μm)2)构建的。两层之间的交叉流动通过放置无绒薄纸或不透水的聚四氟乙烯片来控制,分别代表有和没有通信的分层不均一性。此外,为了更好地了解影响洪水表现的基本机制,我们使用高分辨率医用x射线计算机断层扫描(XCT)扫描仪对洪水期间的样品进行了成像。研究结果表明,岩心尺度的非均质性确实在确定混相驱过程中注入二氧化碳的空间分布,从而决定采收率方面发挥了重要作用。例如,我们的研究结果证实,垂直方向的渗透率非均质性会导致二氧化碳在高渗透层中建立优先流动通道,从而使其提前突破。上述的二氧化碳通道从淹水期间拍摄的x射线图像中可以清楚地看到。然而,一定量的CO2仍会进入低渗透层,对最终采收率有积极影响。实际上,XCT数据的后处理证实了在允许跨层通信的情况下会发生上述情况。二氧化碳从高渗透层向低渗透层的转移被认为是由于横向流动现象(由粘性和分散力引起)导致最终采收率的微妙增加(即1.7%)。在我们对非混相驱进行的类似研究中,发现横向流对总采收率的贡献约为5%。在混相条件下,横流的影响不太明显,据信是由于没有毛细管作用作为横流背后更有效的驱动力。据我们所知,我们的核心驱油结果呈现在这篇手稿中,并由x射线CT可视化支持,是同类中的第一组。它们具有深刻的见解,对于揭示非均质砂岩储层中横流如何控制流动行为将引起科学界的兴趣,对二氧化碳注入的数值模拟具有重要意义。
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X-Ray Computed Tomography Assisted Investigation of Flow Behaviour of Miscible CO2 to Enhance Oil Recovery in Layered Sandstone Porous Media
Reservoir heterogeneity reflected by permeability variation in the vertical direction is expected to significantly impact on the subsurface multiphase flow behaviour. In this context, we have shown previously that during immiscible flooding the crossflow between low and high permeability zones plays a significant role in determining the reservoir performance in terms of the hydrocarbon yield. In this manuscript, the contribution of crossflow to oil recovery in layered sandstone porous media during miscible CO2 flooding is explored. We conducted core flooding experiments using a core sample constructed by attaching two axially split half sandstone plugs each with a different permeability (0.008 and 0.1 (μm)2). The crossflow between the two layers was controlled by placing either a lint-free tissue paper or an impermeable Teflon sheet to represent a layered heterogeneity with and without communication, respectively. Additionally, to better understand the underpinning mechanisms influencing the flood performance, we imaged the samples during flooding using a high-resolution medical X-Ray computed tomography (XCT) scanner. Our results show that core-scale heterogeneity would indeed play an important role in determining the spatial distribution of the injected CO2during miscible flooding, consequently the oil recovery factor. For instance, our results confirm that permeability heterogeneity in vertical direction would lead to CO2 establishing a prefrential flow path through the high permeability layer leading to its early breakthrough. The above-mentioned CO2 channeling is clearly evident from the X-ray images captured during flooding. However, a reasonble amount of CO2 would still enter the low permeability layer contributing positively to the ultimate oil recovery factor. In fact, the post-processing of the XCT data confirmed the above to take place when cross-layer communication was allowed. The diversion of CO2 from the high to low permeablity layer is believed to be due to the crossflow phenomenon (induced by the viscous and dispersion forces) resulting in a subtle increase (i.e. 1.7%) in the ultimate oil recovery. In a similar study we have done about immiscible flooding, the contribution of crossflow to the overall recovery was found to be about 5%. The less pronounced effect of crossflow under miscible conditions is believed to be due to the absence of capillarity as a more effective driving force behind crossflow. To the best of our knowledge, our core-flooding results as presented in this manuscript and backed by X-ray CT visualisation, are the first set of their kind. They are insightful and would be of interest to the scientific community in revealing how crossflow may control flow behaviour in heterogeneous sandstone reservoirs, with important implications for numerical modelling of CO2 injection.
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