Estimation of Three-phase Oil Relative Permeability in WAG Experiments

S. Aghabozorgi, M. Sohrabi, J. Façanha
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引用次数: 4

Abstract

Simulation of many enhanced oil recovery (EOR) methods such as water alternative gas (WAG) requires accurate determination of relative permeability (kr) data under different saturation histories. Relative permeability is a function of several factors such as wettability, spreading coefficient and fluid pore occupancy. Experimental measurements of three phase kr data are time consuming and difficult considering infinite possible flow paths in the three-phase flow regime. There are several models in the literature to estimate the oil relative permeability data in three phase systems (3P-Kr models). However, the available models can not accurately estimate the oil production in low oil saturation region observed in WAG experiments. In this paper, Stone I model has been modified to improve the estimation of oil kr data. To this aim, the behaviors of three phase flow in immiscible and near miscible WAG experiments were considered. It was shown that the Stone model overestimates the oil relative permeability data in the low oil saturation regions. In addition, it was revealed that Stone's exponent model cannot simulate the gradual decreace in the oil kr data. To improve the results, a new coefficient is incorporated into the model to consider the impacts of the disconnected oil clusters during the cyclic injection. In addition, the end-of-cycle residual oil saturation (Som), which was required based on the Stone model, is no longer needed in this modified model.
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WAG实验中三相油相对渗透率的估算
许多提高采收率(EOR)方法的模拟,如水替代气(WAG),需要准确确定不同饱和度历史下的相对渗透率(kr)数据。相对渗透率是润湿性、扩散系数和流体孔隙占比等多种因素的函数。考虑到三相流态中无限可能的流动路径,三相kr数据的实验测量既耗时又困难。文献中有几种预测三相体系中原油相对渗透率的模型(3P-Kr模型)。然而,现有模型不能准确地估计WAG实验中观察到的低含油饱和度区域的产油量。本文对Stone I模型进行了改进,以提高对石油氪数据的估计。为此,考虑了非混相和近混相WAG实验中三相流动的行为。结果表明,在低含油饱和度区域,Stone模型高估了原油相对渗透率数据。此外,还揭示了Stone的指数模型不能模拟油当量数据的逐渐递减过程。为了改善结果,在模型中加入了一个新的系数,以考虑循环注入过程中分离油簇的影响。此外,在修正后的模型中,不再需要基于Stone模型所要求的周期末残余油饱和度(Som)。
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