大挡板非均质碳酸盐岩储层注混相气研究

Chenji Wei, Yuhe Wang, Baozhu Li, Jingjian Zhang, Wang Zhang, J. Wu
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引用次数: 1

摘要

混相气驱是碳酸盐岩油藏提高采收率的一种技术和经济方法。虽然岩心尺度的实验和数值模型可以很好地理解混相驱替过程,但复杂非均质、多维碳酸盐岩储层的混相驱替过程更为复杂,需要进一步分析。本文介绍了在实际油田资料的基础上,对含挡流层碳酸盐岩储层的混相气驱替特征进行了探讨。采用成分模拟方法,对含挡流层的非均质碳酸盐岩储层混相注气过程进行了评价。结合油藏特定部位混相前缘的详细发育情况,分析还利用了通过实施相应的注采模式实现的重力稳定。本文对混相气驱替过程进行了分析,认为混相气驱替过程是由简单的一维模型向更复杂的非均质、多维系统的扩展。利用具有挡板的实际碳酸盐岩储层的数据,分析了驱油过程中的CO2注入。分析中考虑了挡板和润湿性的影响。结果表明,由于多维流动的影响,最小混相压力高于一维体系。此外,我们的研究结果表明,适当的注采模式可以很好地保持重力稳定。我们还报道了对碳酸盐润湿性变化的敏感性分析。本文对非均质碳酸盐岩储层的混相气驱过程进行了分析和评价。通过实际案例数据,该研究可以帮助油藏工程师更好地设计其他类似情况下的混相气驱。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Miscible Gas Injection in Heterogeneous Carbonate Reservoirs with Extensive Baffles
Miscible gas displacement is a promising enhanced oil recovery method in carbonate reservoirs technologically and economically. Though miscibility can be well understood using core-scale experimental and numerical models, the miscible displacement process in complex heterogeneous and multi-dimensional carbonate reservoirs is more complicated and needs further analysis. In this paper, we present our effort in probing the miscible gas displacement characteristics in a carbonate reservoir with baffles based on data from a real field. Using compositional modeling, we evaluate miscible gas injection process in heterogeneous carbonate reservoir with baffles. Together with the detailed miscible front development in specific parts of the reservoir, the analysis also takes advantage of gravity stabilization realized by implementing the corresponding injector-producer pattern. This paper presents an analysis of miscible gas displacement process, which can be considered as an extension from a simple one-dimensional model to more complex heterogeneous and multi-dimensional system. Using data from a real carbonate reservoir with baffles, we analyze the CO2 injection for the drive processes. The analysis is combined with the consideration of the effects of baffles and wettability. Mainly due to the multi-dimensional flow, our results show that the minimum miscibility pressure is higher than one-dimensional system. Besides, our results indicate gravity stabilization could be well maintained by proper injector-producer pattern. We also report the sensitivity analysis for wettability changes in carbonates. This paper offers a study to analyze and evaluate miscible gas flooding process in heterogeneous carbonate reservoirs. Using a real case data, the study can help reservoir engineers to better design miscible gas flooding for other similar situations.
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