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高盐油藏新型生物聚合物的增黏能力和驱油效果
束青林¹,于田田¹,古亮²,樊胤良³,耿杰³,范海明³
(1.中国石化胜利油田分公司,山东东营 257000;2.中国石油长庆油田分公司长庆实业集团有限公司, 陕西西安 710016;3.中国石油大学(华东)石油工程学院,山东青岛 266580)

摘要:

利用生物发酵提纯制备新型生物聚合物BZZF,研究在高盐矿化水中BZZF的增黏性能,并通过与表面活性剂复配构建具有增黏能力和降低油水界面张力的二元复合驱油体系。结果表明:在高盐矿化水中,生物聚合物BZZF表现出具有比常规聚合物HPAM、疏水缔合聚合物HPOC和黄胞胶XG更优异的增黏效果,在含NaCl 130 g/L、MgCl₂ 10 g/L和CaCl₂ 45 g/L的极高盐质量浓度矿化水中1000 mg/L BZZF的黏度可达到93.3 mPa·s;甜菜碱两性型表面活性剂GS、非离子型表面活性剂TS、阴-非离子两性型表面活性剂APS的加入不仅可以提高生物聚合物BZZF在高盐矿化水中的黏度,而且可以使油水界面张力降低到10-2 mN/m量级以下;由于在高盐矿化水中具有良好的增黏效果,含生物聚合物BZZF的化学驱油体系在高盐矿化水中具有较好的驱油效果。

关键词: 生物聚合物耐盐增黏能力油水界面张力驱油效果

DOI：10.3969/j.issn.1673-5005.2018.06.020

分类号::TE 357.6

文献标识码:A

基金项目:国家自然科学基金项目(51574267); 国家科技重大专项(2016ZX05011-4); 中国石化科技攻关项目(215079)；中央高校基本科研业务费专项(15CX08003A,18CX05013A);长江学者和创新团队发展计划项目(IRT14R58)

Viscosifying ability and oil displacement efficiency of new biopolymer in high salinity reservoir

SHU Qinglin¹, YU Tiantian¹, GU Liang², FAN Yinliang³, GENG Jie³, FAN Haiming³

(1.Shengli Oilfield Company, SINOPEC, Dongying 257000, China;2.Changqing Industry Group Company Limited of Changqing Oilfield Branch Company, PetroChina, Xi 'an 710016, China;3.College of Petroleum Engineering in China University of Petroleum(East China), Qingdao 266580, China)

Abstract:

One new biopolymer named BZZF was prepared by biological fermentation and purification. The viscosifying ability of BZZF in high salinity mineralized water was investigated. And the polymer-surfactant flooding systems with viscosifying and reducing oil/water interfacial tension properties were formed through adding surfactants. It is found that biopolymer BZZF shows better viscosifying ability than conventional polymer HPAM, hydrophobically associating polymer HPOC and Xanthan gum XG in high salinity mineralized water. The viscosity of 1000 mg/L BZZF can reach 93.3 mPa·s in extremely high salinity mineralized water containing NaCl 130 g/L,MgCl₂ 10 g/L and CaCl₂ 45 g/L. The addition of betaine amphoteric surfactant GS, nonionic surfactants TS and negative ionic-nonionic amphoteric surfactant APS can not only improve the viscosity of biopolymer BZZF, but also reduce the oil/water interfacial tension down to less than 10-2 mN·in high salinity mineralized water. The chemical flooding system containing biopolymer BZZF presents good oil displacement efficiency because of its good viscosifying ability in high salinity mineralized water.

Key words: biopolymer salt tolerance viscosifying ability oil/water interfacial tension oil displacement efficiency