Study and Application of a Low Damaging Drag Reducing Hydrophilic Suspension
-
摘要: 为了解决聚合物降阻剂粉末在现场应用中存在的水化时间长、溶解效果差等问题,同时避免现有现场用油性悬浮体系环保性差的缺陷,研发了一种以有机醇为溶剂的新型水性低伤害悬浮降阻剂体系,并对滑溜水体系的综合性能进行了室内和现场应用评价。结果表明,聚乙二醇200为最佳悬浮溶剂,当触变剂PR与CQ2720用量分别为1.5%时,体系具有最好的悬浮稳定性,在悬浮体系稳定中两者存在协同增效作用。增加0.5%助分散剂MR312后悬浮降阻剂体系常温静置30 d无沉降,体系黏度稳定在177 mPa·s。悬浮降阻剂体系遇水均匀分散,所配制滑溜水澄清透明,表观黏度可控,降阻率大于70%。在阳101H1-1井的压裂施工中降阻剂分散均匀无结块、起黏迅速,返排液易处理,环境伤害小,环保效果显著。Abstract: A new low damaging hydrophilic suspension dissolvable in alcohol solvents was developed to solve the problems encountered in field application of polymer drag reducers such as long time of hydration and low solubility of the drag reducers, and problems encountered in using hydrophobic suspensions such as poor environmental friendliness. Laboratory and field evaluation of the overall performance of the slick water system was performed. The evaluation results show that the best solvent for the suspension is polyethylene glycol 200. When the concentrations of two thixotropic agents PR and CQ2720 were 1.5% respectively, the suspension has the best stability, and the two thixotropic agents have synergistic effect on stabilizing the suspension. When adding 0.5% dispersant MR312 into the suspension, the drag reducing suspension can stand for 30 d without any sedimentation, and the viscosity of the system remained at 177 mPa·s. The drag reducing suspension can be uniformly dispersed into water, and the slick water prepared with the suspension is clear and transparent. The viscosity of the slick water is adjustable and the rate of drag reduction is great than 70%. In the fracturing job performed on the well Yang-101H1-1, the drag reducer was uniformly dispersed into water, without agglomerating. The fracturing fluid became viscosified quickly and was easy to be flowed back, and it also showed significant environment protection effect.
-
Key words:
- Alcohol /
- Suspension system /
- Slick water /
- Low damaging /
- Hydraulic fracturing
-
表 1 悬浮降阻剂浓度对滑溜水性能的影响
悬浮剂/
%起黏时间/
s表观黏度/
mPa·s降阻率/
%表面张力/
mN·m−1防膨率/
%0.05 24 1.27 62.18 26.8 82.7 0.10 23 2.82 75.36 25.7 83.4 0.15 25 4.22 73.59 25.2 82.8 0.20 21 5.79 71.61 25.6 83.6 
下载: 导出CSV
-
[1] 管保山,刘玉婷,梁利,等. 页岩油储层改造和高效开发技术[J]. 石油钻采工艺,2019,41(2):212-223.GUAN Baoshan, LIU Yuting, LIANG Li, et al. Shale oil reservoir reconstruction and efficient development technology[J]. Oil Drilling & Production Technology, 2019, 41(2):212-223. [2] 刘倩,管保山,刘玉婷,等. 滑溜水压裂液用降阻剂的研究与应用进展[J]. 油田化学,2020,37(3):545-551.LIU Qian, GUAN Baoshan, LIU Yuting, et al. Progress of development and application of drag reduction agents for slick-water fracturing[J]. Oilfield Chemistry, 2020, 37(3):545-551. [3] 马玄,岳前升,吴洪特,等. 国内外水力压裂减阻剂研究进展及展望[J]. 中外能源,2014,19(12):32-36.MA Xuan, YUE Qiansheng, WU Hongte, et al. Research progress and prospect of friction reducer for hydraulic fracturing at home and abroad[J]. Sino-global Energy, 2014, 19(12):32-36. [4] WANG Lei , WANG Dan , SHEN Yiding , et al. Study on properties of hydrophobic associating polymer as drag reduction agent for fracturing fluid[J]. Journal of Polymer Research, 2016, 23(11):235-235. [5] TAMANO S, KITAO T, MORINISHI Y. Turbulent dragreduction of boundary layer flow with non-ionic surfactant injection[J]. Journal of Fluid Mechanics, 2014, 749:367-403. [6] 兰昌文,刘通义,唐文越,等. 一种压裂用水溶性减阻剂的研究[J]. 石油化工应用,2016,35(2):119-12.LAN Changwen, LIU Tongyi, TANG Wenyue, et al. The research of the water-soluble DRA used in fracturing[J]. Petrochemical Industry Application, 2016, 35(2):119-12. [7] 贾长贵,路保平,蒋廷学,等. DY2HF深层页岩气水平井分段压裂技术[J]. 石油钻探技术,2014,42(2):85-90.JIA Changgui, LU Baoping, JIANG Tingxue, et al. Multi-stage horizontal well fracturing technology in deep shale gas well DY2 HF[J]. Petroleum Drilling Techniques, 2014, 42(2):85-90. [8] MORRISON A, SEROV N, FANMY A. Completing ultra extended-reach wells: overcoming the torque and dragconstraints of brine[C]. Abu Dhabi International Petroleum Exhibition & Conference, Abu Dhabi, UAE, SPE, 2019. [9] JOHN E H, MARSHALL D B. Suspending medium for water soluble polymer: US 5091448[P]. 1990-04-24. [10] 任山, 卢聪, 雷欣. 一种高含量水性降阻剂及其制备方法: CN 202010322338.4[P]. 2020-04-22.REN Shan, LU Cong, LEI Xin. A high-content waterborne drag reducer and its preparation method: CN 202010322338.4[P]. 2020-04-22. [11] SHEN L, VIGDERMAN L, HELLER D, et al. Can friction reducers transport sand during fracturing treatment? [C]. SPE/AAPG/SEG Unconventional Resources Technology Conference, Houston, Texas, USA, URTEC, 2018. [12] VIGDERMAN L, BOGDAN A, SHEN L, et al. Far-field diversion system designed for slickwater fracturing[C]. SPE Liquids-Rich Basins Conference, North America, Midland, Texas, USA, SPE, 2018. [13] 张锋三. 双水相缔合型聚丙烯酰胺分子设计及压裂液的连续混配工艺构建[D]. 西安: 陕西科技大学, 2017.ZHANG Fengsan. Molecular design of aqueous two-phase Associated polyacrylamide and construction of continuous mixing process of fracturing fluid[D]. Xi′an, Shaanxi University of Science & Technology, 2017. [14] 郭粉娟,谢娟,张高群,等. 低伤害高效减阻水压裂液的研究与应用[J]. 油田化学,2016,33(3):420-424.GUO Fenjuan, XIE Juan, ZHANG Gaoqun, et al. Research and application of slippery water fracturing fluid with low hurt and high efficiency[J]. Oilfield Chemistry, 2016, 33(3):420-424. [15] 祝纶宇,伊卓,方昭. 页岩气压裂用环保型降阻剂的制备[J]. 南京工业大学学报(自然科学版),2018,40(6):13-19.ZHU Lunyu, YI Zhuo, FANG Zhao. Synthesis of environmental benign drag reducer for shale gas fracturing[J]. Journal of Nanjing University of Technology(Natural Science Edition) , 2018, 40(6):13-19. [16] 何静,李天太. 延长陆相页岩气滑溜水压裂用固体减阻剂应用分析[J]. 石油工业技术监督,2017,33(5):5-9. doi: 10.3969/j.issn.1004-1346.2017.05.002HE Jing, LI Tiantai. Application analysis of solid drag reducing agent for slide hydraulic fracturing in continental shale of Yanchang[J]. Technology Supervision in Petroleum Industry, 2017, 33(5):5-9. doi: 10.3969/j.issn.1004-1346.2017.05.002 -
点击查看大图
图(6) / 表(1)
计量
- 文章访问数: 369
- HTML全文浏览量: 243
- PDF下载量: 49
- 被引次数: 0
