耐温抗盐高效聚合物微球性能评价与应用效果
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“十三五”重大专项子课题“渤海双高油田多级窜逸堵调驱一体化技术研究及示范”(项目编号2016ZX05058-003-010)


Performance Evaluation and Application Effect of High Efficiency Polymer Microsphere with Temperature and Salt resistance
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    摘要:

    深部液流转向技术是渤海油田目前亟需突破的问题。采用倒置生物显微镜以及岩心驱替实验对3种聚合 物微球进行了性能评价,并在渤海B油田开展了微球矿场试验。结果表明,在渤海油藏环境(温度65 ℃、矿化度 8.9 g/L)下,与SMG和COSL微球相比,NWKY微球(主要成分为带有丙烯酰胺-2-甲基丙磺酸和疏水单体等基团 的交联聚合物)在模拟水中缓慢膨胀7 d的粒径从1.98 μm增至18.14 μm,水化膨胀效果较好(膨胀倍数最大);在 高矿化度水和低矿化度水中的粒径和膨胀倍数接近,耐盐性良好。在95 ℃下,NWKY微球仍具有良好的缓膨效 果,耐温性能良好。NWKY微球适应的储层渗透率为200×10-3~1500×10-3μm2,满足油田需求。NWKY微球在 渤海B油田现场实施取得了较好的效果,递减增油7432 m3

    Abstract:

    Deep fluid diversion technology is an urgent problem to be solved in Bohai oilfield. In this paper,the performance of three kinds of polymer microspheres was evaluated by biomicroscopy technology and core displacement experiment. Furthermore, the field test of microsphere was carried out in Bohai B oilfield. The results showed that under the environment of Bohai reservoir, such as 65 ℃ temperature and 8.9 g/L salinity,compared with SMG and COSL microsphere,the size of NWKY microsphere whose main component was crosslinked polymer with acrylamide-2-methylpropanesulfonic acid and hydrophobic monomer increased from 1.98 μm to 18.14 μm after expanding slowly for 7 days in simulated water. The expansion multiple was the largest, indicating good hydration expansion effect. The particle size and expansion multiple were close in high salinity water and low salinity water,showing good salt resistance. Under the condition of 95 ℃,NWKY microsphere still had good slow expansion effect,indicating good temperature resistance. The adaptive reservoir permeability of NWKY microsphere was 200×10-3 —1500×10-3 μm2,which could meet the needs of oilfield. The implementation of NWKY microsphere in Bohai B oilfield achieved good results. The incremental oil of expected was 7432 m3.

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唐晓旭,高建崇,王秋霞,刘进祥,卢祥国,夏 欢,李彦阅,邢剑飞,何 欣.耐温抗盐高效聚合物微球性能评价与应用效果[J].油田化学,2022,39(3):425-430.
TANG Xiaoxu, GAO Jianchong, WANG Qiuxia, LIU Jinxiang, LU Xiangguo, XIA Huan, LI Yanyue, XING Jianfei, HE Xin. Performance Evaluation and Application Effect of High Efficiency Polymer Microsphere with Temperature and Salt resistance[J]. OILFIELD CHEMISTRY,2022,39(3):425-430.

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  • 在线发布日期: 2022-10-20
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