表面活性剂驱油湿型碳酸盐岩油藏毛细数、界面张力、注入流量与温度的相互关系

Xianmin Zhou, Ridha Al-Abdrabalnabi, S. Khan, M. Kamal
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引用次数: 0

摘要

在碳酸盐岩储层中,经过水驱后,相当一部分原始油作为剩余油留在波及层中。孔隙中的剩余油被粘滞力和毛细力捕获,是改善和提高采收率的目标。剩余油的动员可以用毛细管数这个无量纲参数来预测。界面张力和注入流量对毛细管数影响较大。遗憾的是,对于碳酸盐岩储层而言,毛细管数、界面张力、注入流量与温度之间的相互关系研究甚少。重点研究了海水和表面活性剂驱不同数量级下的剩余油饱和度、毛细管数与界面张力、注入流速和温度的关系。在评估条件下,通过改变注入速率和表面活性剂浓度进行了几次岩心驱油实验。采用油湿型碳酸盐岩心进行了海水/油和表面活性剂溶液/油驱替实验,得到了剩余油饱和度与毛细数的关系。在水驱后达到剩余油饱和度时,进行了表面活性剂浓度为0.01和0.2 wt%的驱油实验。在环境条件下进行了三次岩心驱油实验,其中一次是在温度为100°,孔隙压力为3200psi的评估条件下进行的。选择不同的注入速率,以0.2 wt%的表面活性剂溶液进行实验,研究注入速率对毛细管数和残余油饱和度的影响。实验结果表明,在储层条件下,表面活性剂驱油使毛管数增加到临界Nc =2.1E-05时,可从油湿型碳酸盐岩心中采出部分剩余油。水驱后,剩余油饱和度从51%降至16%,表面活性剂驱量为0.01wt%。界面张力从6.77dyne/cm降低到0.017dyne/cm,导致毛细管数量增加。当毛管数增加3个量级时,可使剩余油饱和度降低约5% OOIP。在实验驱替结果的基础上,观察了温度和注入速度对毛细管数的影响。结果表明,温度对毛细管数的影响是显著的。在毛细管数相同的情况下,表面活性剂在高温高压条件下驱出的剩余油高于常温条件下的剩余油。在0.2% wt %的表面活性剂驱油条件下,观察了注入流量对毛细管数的影响。在环境条件和评价条件下,毛细管数量随注射速率的增加而增加。本文为评价油湿型碳酸盐岩油藏表面活性剂驱剩余油与毛细管数的相互关系及设计现场应用提供了有价值的结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Interrelationship of Capillary Number, Interfacial Tension, Injection Flow Rate and Temperature by Surfactant Flooding for Oil-wet Carbonate Reservoirs
After water flooding in carbonate reservoirs, a significant fraction of the original oil as remaining oil is left in the swept zone. The remaining oil in the pore, trapped by viscous and capillary forces, is to target for improved and enhanced oil recovery. The mobilization of remaining oil can be predicted by a dimensionless parameter called capillary number. The interfacial tension and injection flow rate strongly affect the capillary number. Unfortunately, the interrelationship between capillary number, interfacial tension, injection flow rate, and the temperature has been poorly studied for carbonate reservoirs. This paper focuses on studying the remaining oil saturations at different orders of magnitude capillary numbers related to interfacial tension, injection flow rate, and temperature by seawater and surfactant flooding. Several core flooding experiments were performed by changing the injection rate and surfactant concentrations at evaluated conditions. Four displacement experiments of seawater/oil and surfactant solution/oil were performed using oil-wet carbonate cores to obtain the relationship between the residual oil saturation vs. the capillary number. The surfactant flooding experiments with different concentrations of 0.01 and 0.2 wt% were conducted when the remaining oil saturation was reached after water flooding. Three core flooding experiments were conducted at ambient conditions, and one was under evaluated conditions of a temperature of 100° and pore pressure of 3200 psi. Several injection rates were selected to experiment with a 0.2 wt% surfactant solution, which is to study the effect of injection rate on the capillary number and residual oil saturation. The experimental findings show that some remaining oil can be recovered from oil-wet carbonate cores if the capillary number increases by a critical Nc =2.1E-05 by surfactant flooding at reservoir conditions. After water flooding, the remaining oil saturation was decreased from 51% to 16% with 0.01wt% surfactant flooding. The reduction of interfacial tension from 6.77dyne/cm to 0.017dyne/cm led to an increased capillary number. It decreased the remaining oil saturation by about 5% OOIP when the capillary number increases three magnitudes. The effect of temperature and injection rate on the capillary number was observed based on experimental displacement results. Compared with results between the ambient and specified conditions, the effect of temperature on the capillary number is significant. Under the same capillary number, the remaining oil recovered by surfactant flooding at HPHT conditions was higher than that at ambient conditions. Also, the effect of the injection flow rate on the capillary number was observed by 0.2wt % surfactant flooding for all experiments. The capillary number increased with an increase in the injection rate for both ambient and evaluated conditions. This paper provides valuable results to evaluate the interrelationship between remaining oil and capillary numbers by surfactant flooding and design field application for oil-wet carbonate reservoirs.
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