A surfactant-polymer and macromolecular surfactant compound system for enhancing heavy oil recovery: Synthesis, characterization and mechanism

IF 2.2 4区化学 Q3 CHEMISTRY, PHYSICAL

Colloid and Polymer Science Pub Date : 2025-01-14 DOI:10.1007/s00396-025-05373-z

Jun Hu, Lei-ting Shi, Yue Luo, Mao Chen, Cheng Jin, Yong-jun Guo, Na Yuan

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Abstract

Chemical flooding has gained significant attention as an economical and effective technique for enhancing heavy oil recovery. Nevertheless, its application in heavy oil production is often hampered by low sweep efficiency and high injection pressure. To address these challenges, a new oil-displacing agent involving a macromolecular surfactant and a surfactant-polymer compound system has been proposed. This study introduces a surfactant-polymer (PAS) synthesized from acrylamide, 2-acrylamido-2-methylpropane sulfonic acid, and N-hexadecyl-N-sulfo acrylamide, along with a macromolecular surfactant (PSS) made from acrylamide, acrylic acid, sodium p-styrene sulfonate, N-hexadecyl-N-sulfo acrylamide, butyl acrylate, methylene-bis-acrylamide, and nano-silica. The structural composition of PAS and PSS was confirmed through ¹H-NMR and FT-IR analyses. Extensive testing was conducted comparing the performance of PAS, PSS, and a PAS-PSS compound system against an association polymer (AP-1) and a conventional polymer (HPAM). The study focused on thickening performance, interfacial activity, viscosity reduction of heavy oil, and core flooding performance. Results revealed that the PAS-PSS combination significantly outperforms both HPAM and AP-1 in terms of reducing heavy oil viscosity and improving interfacial activity. Specifically, a 1500 mg/L PAS-PSS system achieved a 90.83% reduction in heavy oil viscosity, reduced water–oil interfacial tension to 4.64 mN/m, and had an apparent solution viscosity of 6.45 mPa·s. Oil displacement experiments further demonstrated that the PAS-PSS system enhanced heavy oil recovery by 43.33%, markedly higher than the recovery rates for AP-1 (26.63%) and HPAM (16.76%). Additionally, the compounded system exhibited a lower apparent viscosity, leading to reduced injection pressure. Investigations into the mechanism showed that the PAS-PSS system effectively emulsifies heavy oil to lower its viscosity and increases the viscosity of the water phase. This dual action significantly improves both the oil displacement efficiency and sweep efficiency, subsequently enhancing overall heavy oil recovery. In summary, the use of a surfactant-polymer and a macromolecular surfactant complex system offers a promising advancement in chemical flooding techniques for high-viscosity heavy oil extraction, presenting a novel method to bolster heavy oil recovery operations.

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一种提高稠油采收率的表面活性剂-聚合物和大分子表面活性剂复合体系：合成、表征和机理

化学驱作为一种经济有效的提高稠油采收率的技术，受到了广泛的关注。然而，它在稠油生产中的应用往往受到波及效率低和注入压力高的限制。为了解决这些问题，提出了一种新型的驱油剂，该驱油剂包括大分子表面活性剂和表面活性剂-聚合物复合体系。本研究介绍了由丙烯酰胺、2-丙烯酰胺-2-甲基丙烷磺酸和n -十六烷基- n -磺基丙烯酰胺合成的表面活性剂聚合物（PAS），以及由丙烯酰胺、丙烯酸、对苯乙烯磺酸钠、n -十六烷基- n -磺基丙烯酰胺、丙烯酸丁酯、亚甲基-双丙烯酰胺和纳米二氧化硅制成的大分子表面活性剂（PSS）。通过1H-NMR和FT-IR分析确定了PAS和PSS的结构组成。研究人员对PAS、PSS以及PAS-PSS复合体系与关联聚合物（AP-1）和常规聚合物（HPAM）的性能进行了广泛的测试。研究重点是稠油的增稠性能、界面活性、降粘性能和岩心驱油性能。结果表明，PAS-PSS组合在降低稠油粘度和提高界面活性方面明显优于HPAM和AP-1。其中，1500 mg/L的PAS-PSS体系可使稠油粘度降低90.83%，水-油界面张力降至4.64 mN/m，表观溶液粘度为6.45 mPa·s。驱油实验进一步表明，PAS-PSS体系的稠油采收率提高了43.33%，显著高于AP-1（26.63%）和HPAM（16.76%）的采收率。此外，复合体系表现出较低的表观粘度，从而降低了注入压力。机理研究表明，PAS-PSS体系能有效乳化稠油，降低稠油粘度，提高稠油水相粘度。这种双重作用显著提高了驱油效率和波及效率，从而提高了稠油的整体采收率。综上所述，表面活性剂-聚合物和大分子表面活性剂复合体系的使用为高粘度稠油的化学驱开采技术提供了一个有前途的进步，为稠油开采提供了一种新的方法。图形抽象

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来源期刊

Colloid and Polymer Science 化学-高分子科学

CiteScore

4.60

自引率

4.20%

发文量

111

审稿时长

2.2 months

期刊介绍： Colloid and Polymer Science - a leading international journal of longstanding tradition - is devoted to colloid and polymer science and its interdisciplinary interactions. As such, it responds to a demand which has lost none of its actuality as revealed in the trends of contemporary materials science.