Synthesis of Polyether Carboxylate and the Effect of Different Electrical Properties on Its Viscosity Reduction and Emulsification of Heavy Oil

粘度 还原粘度 相对粘度 固有粘度 减速器 乳状液 表面张力 化学工程 化学 肺表面活性物质 提高采收率 材料科学 特性粘度 热力学 有机化学 复合材料 聚合物 物理 工程类
作者
Junqi Wang,Ruiqing Liu,Bo Wang,Zhigang Cheng,Chengkun Liu,Yiwen Tang,Junfeng Zhu
出处
期刊:Polymers [Multidisciplinary Digital Publishing Institute]
卷期号:15 (14): 3139-3139 被引量:4
标识
DOI:10.3390/polym15143139
摘要

Heavy oil exploitation needs efficient viscosity reducers to reduce viscosity, and polyether carboxylate viscosity reducers have a significant viscosity reduction effect on heavy oil. Previous work has studied the effect of different side chain lengths on this viscosity reducer, and now a series of polyether carboxylate viscosity reducers, including APAD, APASD, APAS, APA, and AP5AD (the name of the viscosity reducer is determined by the name of the desired monomer), with different electrical properties have been synthesized to investigate the effect of their different electrical properties on viscosity reduction performance. Through the performance tests of surface tension, contact angle, emulsification, viscosity reduction, and foaming, it was found that APAD viscosity reducers had the best viscosity reduction performance, reducing the viscosity of heavy oil to 81 mPa·s with a viscosity reduction rate of 98.34%, and the worst viscosity reduction rate of other viscosity reducers also reached 97%. Additionally, APAD viscosity reducers have the highest emulsification rate, and the emulsion formed with heavy oil is also the most stable. The net charge of APAD was calculated from the molar ratio of the monomers and the total mass to minimize the net charge. While the net charge of other surfactants was higher. It shows that the amount of the surfactant's net charge affects the surfactant's viscosity reduction effect, and the smaller the net charge of the surfactant itself, the better the viscosity reduction effect.
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