泡沫辅助水-气交替注入FAWAG的稳健筛选标准

N. I. Kechut, J. Groot, M. A. Mustafa, J. Groenenboom
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引用次数: 0

摘要

为了改善FAWAG工艺中固有的气液流动性差,提出了泡沫辅助水-交变气(FAWAG)注入方法。泡沫减少了重力覆盖和气窜,从而提高了体积扫描效率,从而提高了石油采收率。泡沫动力学、表面活性剂吸附、泡沫与油接触时的稳定性等方面仍存在许多不确定因素,这些因素会影响泡沫在储层中的实际传播。虽然从实验室和现场实验中获得了一些见解,但作为FAWAG现场开发的一部分,注入策略和设施的性能和设计并非微不足道,现场数据也很少。为了降低提高采收率(EOR)应用的风险,需要进行大量的实验室实验和模拟研究,但这些过程既耗时又昂贵。因此,在进行详细的可行性研究之前,通常会进行筛选研究,以增加选择高潜力候选人的可能性。不幸的是,与其他成熟的EOR方法不同,FAWAG的筛选标准并不容易建立,也没有在商业筛选工具中普遍使用,这主要是由于FAWAG在全球范围内现场实施的数据库有限。本文提出了一种强大的FAWAG筛选工具,该工具考虑了重要的储层性质、泡沫模型参数的不确定性以及油气生产和注入计划的各种储层条件。FAWAG过程采用隐式纹理模型,基于泡沫生成和聚并的局部平衡假设进行建模。分析了相关的泡沫扫描实验/稳态岩心驱油数据,得出表征泡沫动力学的参数。本文的敏感性研究对FAWAG过程的主要风险和机会进行了排序和识别,量化了模型的可靠性,增加了对有效动力行为的理解。敏感性研究是通过实验设计开发和验证代理模型的基础。筛选工具使用该代理模型来生成即时筛选结果,而无需运行额外的模拟。通过放大实验数据进一步验证了该筛选工具。建立了多种合理的油田方案下采收率范围的预测结果;这些筛选标准将作为高层决策的基础。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Robust Screening Criteria for Foam-Assisted Water-Alternating Gas FAWAG Injection
Foam-Assisted-Water-Alternating-Gas (FAWAG) injection has been proposed to improve the inherent unfavorable mobility ratio of gas and liquid in WAG process. The foam reduces gravity override and gas channeling as to improve volumetric sweep efficiency and thus oil recovery. There are still a lot of uncertainties yet to be understood in foam dynamics, surfactant adsorption, and foam stability when contacting oil, which impact the actual foam propagation into the reservoir. Although some insights are gained from laboratory and field experiments, the performance, and design of the injection strategy and facilities as part of the field development of FAWAG is not trivial and field data is sparse. Extensive laboratory experiments and simulation studies are necessary to de-risk enhanced oil recovery (EOR) application, but these processes are time consuming and expensive. For this reason, a screening study is normally conducted to increase the possibility of selecting high potential candidates prior to embarking on the detailed feasibility studies. Unfortunately for FAWAG, the screening criteria are not readily established nor commonly available in commercial screening tools unlike for other matured EOR methods, largely contributed by the limited database on FAWAG field implementations worldwide. This paper presents a robust FAWAG screening tool which accounts for important reservoir properties, uncertainties in foam model parameters, as well as various reservoir conditions of oil and gas production and injection plans. The FAWAG process is modelled from the assumption of local equilibrium of foam creation and coalescence using an Implicit Texture model. Relevant foam scan experiments/steady state coreflood data were analyzed to derive parameters that characterize foam dynamics. The sensitivity study in this paper ranks and identifies the main risks and opportunities for the FAWAG process, quantifies the reliability of the model and increases the understanding of the effective dynamic behaviour. The sensitivity study was the basis for the development and validation of a proxy model by design of experiments. The screening tool employs this proxy model to generate immediate screening results without the need to run additional simulations. The screening tool was further validated with upscaled experimental data. A set of prediction results on the range of oil recovery for numerous plausible field scenarios was established; these screening criteria will be used as the basis for high-level decision making.
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