Simulation of Immiscible WAG Experiments Performed in Carbonate Rocks: The Impact of Heterogeneity on Hysteresis Phenomenon

Latifa Obaid Alnuaimi, M. Sohrabi, S. Aghabozorgi, Ahmed Alshmakhy
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Abstract

Simulation of Water-Alternating-Gas (WAG) Experiments require precise estimation of hysteresis phenomenon in three-phase relative permeability. Most of the research available in the literature are focused on experiments performed on sandstone rocks and the study of carbonate rocks has attracted less attention. In this paper, a recently published hysteresis model by Heriot-Watt University (HWU) was used for simulation of WAG experiments conducted on mixed-wet homogenous carbonate rock. In this study, we simulated immiscible WAG experiments, which were performed under reservoir conditions on mixed-wet carbonate reservoir rock extracted from Abu Dhabi field by using real reservoir fluids. Experiments are performed with different injection scenarios and at high IFT conditions. Then, the results of the coreflood experiments were history matched using 3RPSim to generate two-phase and three-phase relative permeability data. Finally, the hysteresis model suggested by Heriot-Watt University was used for the estimation of hysteresis in relative permeability data. The performance of the model was compared with the experimental data from sandstones to evaluate the impact of heterogeneity on hysteresis phenomenon. It was shown that the available correlations for estimation of three-phase oil relative permeability fail to simulate the oil production during WAG experiments, while the modified Stone model suggested by HWU provided a better prediction. Overall, HWU hysteresis model improved the match for trapped gas saturation and pressure drop. The results show that the hysteresis effect is less dominant in the carbonate rock compared to the sandstone rock. The tracer test results show that the carbonate rock is more homogenous compared to sandstone rock. Therefore, the conclusion is that the hysteresis effect is negligible in homogenous systems.
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碳酸盐岩非混相WAG实验模拟:非均质性对滞后现象的影响
水-交变-气(WAG)实验的模拟需要精确估计三相相对渗透率的滞后现象。现有文献中的大部分研究都集中在砂岩上进行的实验,而对碳酸盐岩的研究较少受到关注。本文采用赫瑞瓦特大学(HWU)最新发表的滞回模型,对混合湿均质碳酸盐岩进行了WAG实验模拟。在本研究中,我们采用真实储层流体,模拟了阿布扎比油田开采的混合湿碳酸盐岩储层在储层条件下进行的非混相WAG实验。实验在不同的注射场景和高IFT条件下进行。然后,利用3RPSim对岩心驱替实验结果进行历史拟合,得到两相和三相相对渗透率数据。最后,采用Heriot-Watt大学提出的滞回模型对相对渗透率数据进行滞回估计。将模型的性能与砂岩的实验数据进行了比较,以评估非均质性对滞后现象的影响。结果表明,WAG实验中可用的三相油相对渗透率预测相关性不能很好地模拟原油产量,而HWU提出的修正Stone模型能更好地预测原油产量。总体而言,HWU滞回模型提高了圈闭气饱和度与压降的匹配度。结果表明,与砂岩相比,碳酸盐岩中的滞后效应不那么明显。示踪试验结果表明,碳酸盐岩比砂岩更均匀。因此,结论是迟滞效应在均匀系统中可以忽略不计。
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