关水处理用水凝胶:一种新型聚合物凝胶体系的评价

A. Al-Taq, Luai Alhmad, Abdulla A. Alrustum, Sajjad Aldarweesh
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引用次数: 2

摘要

水凝胶聚合物已经在石油和天然气行业的不同应用中得到了应用,包括水喷注。水凝胶聚合物可以形成不渗透凝胶,以优化注水剖面,提高扫描效率,并密封不良渗透层。水凝胶已经成功地应用于控制盗贼层、天然裂缝和基质地层的产水。在本研究中,研究了一种新的聚合物凝胶体系(PGS),一种水凝胶型,用于治水。实验工作包括溶胀测试、粘度测量和岩心驱替实验。考察了水矿化度、PGS浓度、pH值和温度对水凝胶聚合物体系性能的影响。本研究检测的PGS浓度为0.5和1.5%,水的盐度为20 ~ 200 g/L NaCl。检测pH值分别为7和1。岩心驱油实验采用砂岩岩心塞,温度为80℃。结果表明,聚合物凝胶体系的粘度随浓度和温度的增加而增加,随水盐度的增加而降低。当pH值从7降低到1时,在1.5 wt%和60℃条件下,PGS的粘度从575降低到16 cP。盐度对PGS的膨胀性能也有负面影响。岩心驱油实验表明,为了实现高控水,PGS应以较高的注入速率(低于压裂压力)挤入岩心塞中。当注入速度为5 cm3/min时,获得的残余抗水系数为158,而当注入速度为1 cm3/min时,发现该系数< 5。在较低的注入速率下,PGS在岩心塞的进口面上形成了一个外部滤饼。本文详细介绍了一种新型水凝胶聚合物体系的实验室评价结果,并推荐了成功控制产水的最佳条件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hydrogels for Water Shut-Off Treatments: Evaluation of a New Polymer Gel System
Hydrogel polymers have served the oil and gas industry in different applications including water shot-off. Hydrogel polymers can create impermeable gels to optimize water injection profile, improve sweep efficiency, and seal undesirable permeable zones. Hydrogels have been successfully applied as remediation treatments to control water production from thief zones, natural fractures and matrix formation. In this study, a new polymer gel system (PGS), a hydrogel type, was examined for water control treatments. The experimental work included swelling testing, viscosity measurement, and coreflood experiments. The effect of water salinity, PGS concentration, pH values and temperature on hydrogel polymer system properties was examined. The PGS concentrations examined in this study were 0.5 and 1.5% while water salinity ranged from 20 to 200 g/L of NaCl. The examined pH values were 7 and 1. The coreflood experiments were conducted at 80 °C using sandstone core plugs. The results showed that viscosity of the polymer gel system increased as a function of concentration and temperature but decreased as a function of water salinity. The viscosity of PGS at 1.5 wt% and at a temperature of 60 °C decreased from 575 to 16 cP when the pH value was decreased from 7 to 1. Salinity was found to be negatively impacting the swelling properties of the examined PGS too. Coreflood experiments showed that the PGS should be squeezed into the core plug at higher injection rates (below frac pressure) in order to achieve high water control. The residual resistant factor to water obtained at an injection rate of 5 cm3/min was 158 while it was found to be < 5 at an injection rate of 1 cm3/min. At a lower injecting rate, the PGS was found to form an external filtercake at the inlet face of the core plug. The paper presents in detail lab findings of evaluation of a new hydrogel polymer system and recommend optimum conditions to control water production successfully.
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