古贝烷氧基甜菜碱表面活性剂用于高温高盐油藏表面活性剂-聚合物驱

H. Cai, Qiang Wang, Wen-li Luo, Wang Hongzhuang, Zhou Xinyu, Jianguo Li, Y. Zheng
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引用次数: 6

摘要

近十年来,由于甜菜碱表面活性剂在油水界面具有较高的界面活性,在恶劣的储层条件下具有良好的耐热性和耐盐/二价离子的特性,各种甜菜碱表面活性剂被开发并广泛用于SP驱油。本文制备了一种新型古贝烷氧基甜菜碱表面活性剂(GAB),并对其在SP驱油中的应用进行了评价。为了提高甜菜碱表面活性剂的乳化性能,在甜菜碱分子中加入环氧乙烷(EO)官能团,选择古贝醇作为疏水性基团。首先,用烷氧化古贝醇与环氧氯丙烷反应制备缩水甘油酯醚。然后,缩水甘油醚和二甲胺合成叔胺。最后一步,叔胺与3-氯-2-羟基丙磺酸钠进行季化反应合成表面活性剂GAB。对这种GAB表面活性剂进行了实验室性能评估,包括界面张力、长期稳定性、接触角和相行为。所开发的表面活性剂与高温高矿化度(HTHS)储层具有良好的配合性。GAB表面活性剂的适用范围为27.5万mg/L,温度为120℃。采用质量浓度为0.03% ~ 0.20%的GAB稀释溶液,可获得与原油的超低界面张力。以高温、高矿化度碳酸盐岩储层脱水轻油为原料,采用0.5% GAB和0.5%阿米甜菜碱配制成Winsor III型中相微乳液。当储层温度为95℃,最佳矿化度为50,000 mg/L时,增溶比达到16。与结构相似的古贝烷氧硫酸表面活性剂和常规磺胺甜菜碱相比,制备的甜菜碱表面活性剂GAB具有更好的热稳定性、更高的界面活性和更强的HTHS乳化能力。
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Guerbet Alkoxy Betaine Surfactant for Surfactant-Polymer Flooding in High Temperature, High Salinity Reservoirs
In recent decade, various betaine surfactants have been developed and extensively investigated for binary Surfactant-Polymer flooding (SP flooding) due to their high interfacial activity at oil-water interface, excellent thermal tolerant and salt/divalent ion resistant characteristics under harsh reservoir conditions. Herein, a new type of guerbet alkoxy betaine surfactant (GAB) was prepared and evaluated for SP flooding. In order to boost the emulsification capability of betaine surfactant, ethylene oxide (EO) functional group was incorporated into betaine molecule and guerbet alcohol was selected as hydrophobic group. Firstly, glycidyl ether was prepared by reaction of alkoxylated Guerbet alcohol and epoxy chloropropane. Then, glycidyl ether and dimethyl amine generated tertiary amine. In the last step, surfactant GAB was synthesized by quarternization reaction of tertiary amine with 3-chloro-2-hydroxyl propanesulfonic acid sodium salt. In-lab performance evaluations, including interfacial tension, long term stability, contact angle, and phase behavior were conducted for this GAB surfactant. The developed surfactant demonstrated very good compatibility with high temperature, high salinity (HTHS) reservoir conditions. Applicability range of GAB surfactant amounted to 275,000 mg/L and 120 °C. Ultralow interfacial tension with crude oil was obtained using diluted GAB solutions with weight concentration ranging from 0.03% to 0.20%. For formulation composed by 0.5% GAB and 0.5% amidobetaine, Winsor III middle phase microemulsion was formed with dehydrated light oil from a high temperature, high salinity carbonate reservoir. The solubilization ratio mounted to 16 at reservoir temperature of 95 °C and optimal salinity of 50,000 mg/L. Compared with guerbet alkoxy sulfate surfactant and conventional sulfobetaine with similar structure, the developed betaine surfactant GAB showed better thermal stability, higher interfacial activity, and intensified emulsification capability under HTHS conditions.
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