多因素泡沫驱提高采收率新模型

Jing Wang, Huishu Liu, H. Zhang, G. Zhang, P. Liu, K. Sepehrnoori
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引用次数: 6

摘要

泡沫驱是一种很有前途的技术,可以在水驱后实现流动性控制和向低渗透地层转移流体。然而,泡沫流动非常复杂,受渗透率、表面活性剂浓度、泡沫质量、储层温度、含油饱和度、含水饱和度和渗流速度等诸多尚未得到严格研究和探索的因素的影响。基于两种发泡剂对岩心泡沫渗流和封堵规律的实验,建立了考虑上述因素影响的新型泡沫驱油模型,并利用IMPES方法结合龙格-库塔方法构建的储层模拟器进行求解。然后,通过无油和有油岩心驱油实验进行验证。最后,利用仿真器研究了渗透率最大最小比、纵横渗透率比、气液比、沉积顺序、发泡剂浓度、储层温度等因素对储层渗透率的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Novel Model of Foam Flooding Considering Multi-Factors for Enhancing Oil Recovery
Foam flooding is a promising technique for achieving mobility control and diverting fluid into low-permeability strata in post-water-flooding reservoirs. However, foam flow is very complicated and is influenced by many factors which have not been studied and explored very rigorously (i.e. permeability, surfactant concentration, foam quality, reservoir temperature, oil saturation, water saturation and seepage velocity). Based on core flooding experiments of foam flowing and blocking rules using two kinds of foaming agents, a novel model of foam flooding considering the influences of the above factors is established and solved using a reservoir simulator which is formulated using the IMPES method in conjunction with a Runge-Kutta method. Then, the validation is performed by core flooding experiments in both the absence and presence of oil. Finally, the simulator is used to investigate the effects of the permeability max-min ratio, ratio of vertical to horizontal permeability, gas-liquid ratio, depositional sequence, foaming agent concentration, and reservoir temperature.
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