基于孔隙网络模型的剩余饱和度与润湿性关系研究

P. Purswani, R. Johns, Z. Karpyn
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引用次数: 2

摘要

残余饱和度和润湿性之间的关系对于模拟提高采收率(EOR)过程至关重要。岩心的润湿状态通常通过Amott指数来量化,Amott指数是由自发流动的饱和分数与自发流动和强制注入引起的总饱和度变化的比值来估计的。岩心驱油实验表明,剩余油饱和度随润湿性指数的变化趋势在混湿条件下通常最小。然而,Amott指数提供了润湿性(接触角)的平均测量,其本质上取决于各种因素,如初始含油饱和度、老化条件等。因此,使用Amott指数可能会使观测到的剩余饱和度随润湿性的变化趋势变得模糊。利用孔隙网络模型(PNM),我们发现剩余油饱和度随接触角单调变化,这是表征润湿性的直接指标。即在初始含油饱和度固定的情况下,剩余油饱和度随着储层水湿性的增强(接触角减小)而单调减小。此外,对PNM数据集的Amott指数的计算表明,残余油饱和度与Amott指数的关系也显示出这种单调趋势,但前提是初始油饱和度保持固定。因此,对于这里提出的情况,我们表明,在混合湿条件下,随着润湿性的变化,没有最小剩余饱和度。这对于改变润湿性的低矿化度水驱或其他提高采收率工艺具有重要意义。
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Relationship between Residual Saturations and Wettability using Pore-Network Modeling
The relationship between residual saturation and wettability is critical for modeling enhanced oil recovery (EOR) processes. The wetting state of a core is often quantified through Amott indices, which are estimated from the ratio of the saturation fraction that flows spontaneously to the total saturation change that occurs due to spontaneous flow and forced injection. Coreflooding experiments have shown that residual oil saturation trends against wettability indices typically show a minimum around mixed-wet conditions. Amott indices, however, provides an average measure of wettability (contact angle), which are intrinsically dependent on a variety of factors such as the initial oil saturation, aging conditions, etc. Thus, the use of Amott indices could potentially cloud the observed trends of residual saturation with wettability. Using pore network modeling (PNM), we show that residual oil saturation varies monotonically with the contact angle, which is a direct measure of wettability. That is, for fixed initial oil saturation, the residual oil saturation decreases monotonically as the reservoir becomes more water-wet (decreasing contact angle). Further, calculation of Amott indices for the PNM data sets show that a plot of the residual oil saturation versus Amott indices also shows this monotonic trend, but only if the initial oil saturation is kept fixed. Thus, for the cases presented here, we show that there is no minimum residual saturation at mixed-wet conditions as wettability changes. This can have important implications for low salinity waterflooding or other EOR processes where wettability is altered.
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