The Development and Application of Well Cementing Cleaning Agent DQQX-2 and Flushing Fluid Formulated with It
-
摘要: 为解决油基钻井液在套管壁及井壁形成不易冲洗的胶凝结构影响固井质量的问题,该研究重点进行了固井冲洗液用清洗剂的研制,通过对助剂体系各项物性指标的考察,筛选出具有高效清洗及助悬浮能力的清洗剂体系,同时根据固井前置液所要求的技术指标优选固井冲洗液用悬浮剂及其他助剂的种类及加入量,得到了一套具备高效清洗能力的固井冲洗液体系。室内实验发现,在清洗剂加入量达到3%~6%,悬浮剂加入量达到3%时,冲洗液可抗温180 ℃,加重密度可在1.2~2.0 g/cm3范围内调节,23 ℃静止24 h冲洗液上下密度差小于0.03 g/cm3,冲净油基钻井液的时间不大于7 min,与钻井液和水泥浆相容性优异。现场试验表明,应用该冲洗液体系,现场施工顺利,固井质量优质,水平段优质井段比例大于93%。说明该冲洗液体系可提升冲洗顶替效率,从而提升固井质量,具有较高推广价值。Abstract: Residual oil based drilling fluids retained on the surfaces of casing strings and on the borehole walls become gels that are difficult to wash away, hence affecting the job quality of well cementing. To solve this problem, efforts were made on the development of flushing fluids for well cementing. By studying the physical properties of various cleaning agents for use in well cementing, a cleaning agent system with high cleaning performance and suspending capacity is developed. Based on the technical requirements for the well cementing pre-pad fluids, the suspending agent and other additives for a high efficiency flushing fluid are engineered. Laboratory study shows that in the flushing fluid when the concentration of the cleaning agent is in a range of 3% to 6% and the concentration of the suspending agent is 3%, the flushing fluid can function normally at 180 ℃, the density of the flushing fluid can be adjusted between 1.2 g/cm3 and 2.0 g/cm3, and the difference between the density of the top fluid and the density of the bottom fluid is less than 0.03 g/cm3 after the flushing fluid stands for 24 h at 23 ℃. The time for the flushing fluid to clean completely the residual oil-based drilling fluids is within 7 min. This flushing fluid has good compatibility with the drilling fluids and the cement slurries. Field operation results show that in wells cleaned with this flushing fluid, the cementing job is performed smoothly, and the excellent job quality of cementing the horizontal section of a well is more than 93% of the total. Field operation achievements prove that this flushing fluid can be used to better clean the wellbores drilled with oil-based drilling fluids and enhance the efficiency of displacing the cement slurries, thereby improving the job quality of well cementing.
-
Key words:
- Well cementing /
- Quality of well cementing /
- Multifunctional /
- Cleaning agent /
- Flushing fluid
-
表 1 单一表面活性剂乳化白油实验
助剂种类及名称 乳液粒径/μm 乳液稳定性(23 ℃) D50 D98 4 h 24 h 烷基酚聚氧
乙烯醚RH1 1.02 3.22 优异 优异 RH2 1.05 3.50 优异 良好 蓖麻油聚氧
乙烯醚FS1 1.37 4.01 良好 破乳 椰子油聚氧
乙烯醚RH3 1.24 3.98 良好 破乳 脂肪醇聚氧
乙烯醚ST1 1.13 3.20 优异 优异 ST2 1.28 3.67 良好 良好 烷基苯
磺酸盐JX1 1.41 4.58 良好 良好 JX2 1.25 3.92 优异 良好 聚氧乙烯失水
山梨醇脂肪酸酯ZR1 2.54 5.37 良好 破乳 ZR2 2.44 5.33 破乳 破乳 ZR3 3.01 5.89 破乳 破乳 失水山梨醇
脂肪酸酯RH4 3.36 6.88 破乳 破乳 RH5 3.28 6.67 破乳 破乳 
下载: 导出CSV
表 3 清洗剂使用溶剂的筛选
溶剂% 23 ℃静置24 h 150 ℃静置4 h 初切/Pa FV/s 初切/Pa FV/s 0 16 335 19 362 0.5 35 116 38 121 1.0 24 92 26 95 2.0 18 79 19 81 2.5 13 58 13 58 3.0 6 42 4 43
下载: 导出CSV
表 4 悬浮剂的筛选
悬浮剂 加量/
%△ρ(23 ℃、24 h)/
g·cm−3△ρ(180 ℃、4 h)/
g·cm−3黄原胶 5 0.04 0.10 8 0.03 0.08 温轮胶 5 0.02 0.03 8 0.02 0.02 聚乙烯吡
咯烷酮5 0.05 0.12 8 0.04 0.07 聚乙烯醇 5 0.03 0.04 8 0.02 0.03
下载: 导出CSV
表 6 不同清洗剂体系助悬性能评价
悬浮剂 △ρ(23 ℃、24 h)/
g·cm−3△ρ(180 ℃、4 h)/
g·cm−35%温轮胶 0.02 0.03 8%温轮胶 0.02 0.02 3%温轮胶+4%CX1 0.02 0.05 3%温轮胶+4%CX2 0.01 0.02 3%温轮胶+4%CX3 0.03 0.06 6%CX2 >0.05(15 min
后即明显析水)
下载: 导出CSV
表 7 不同密度冲洗液悬浮稳定性评价
冲洗液原始密度/
g·cm−323 ℃静置24 h上下
密度/(g·cm−3)180 ℃静置4 h上下
密度/(g·cm−3)1.20 1.19 1.20 1.19 1.20 1.30 1.30 1.30 1.29 1.31 1.40 1.39 1.40 1.39 1.40 1.50 1.50 1.50 1.49 1.50 1.60 1.59 1.60 1.60 1.60 1.70 1.69 1.72 1.69 1.71 1.80 1.78 1.81 1.78 1.81
下载: 导出CSV
表 8 不同比例的冲洗液与钻井液相容性实验数据
混合比例 φ600 φ300 φ200 φ100 φ6 φ3 100%冲洗液 48 31 22 14 5 4 100%钻井液 99 62 41 27 12 11 100%水泥浆 255 162 110 67 16 14 95%钻井液+5%冲洗液 95 59 37 24 9 8 75%钻井液+25%冲洗液 89 55 34 23 8 7 50%钻井液+50%冲洗液 75 49 32 21 7 6 50%冲洗液+50%水泥浆 153 99 67 43 11 9 25%冲洗液+75%水泥浆 204 130 89 55 14 12 5%冲洗液+95%水泥浆 242 152 104 62 15 13
下载: 导出CSV
-
[1] 关海鹞. 针对深井、超深井油基泥浆固井前置液的研究[D]. 大庆: 东北石油大学, 2018.GUAN Haiyao. Research on the Pre cementing fluid for oil based mud in deep and ultra deep wells[D]. Daqing: Northeast Petroleum University, 2018. [2] 梁艳丽,郭娟,常少赟,等. 一种固井用油基泥浆冲洗液的制备及应用[J]. 河南化工,2020,37(10):19-21.LIANG Yanli, GUO Juan, CHANG Shaoyun, et al. Preparation and application of an oil base mud flushing fluid for cementing[J]. Henan Chemical Industry, 2020, 37(10):19-21. [3] 熊正强,陶士先,李艳宁,等. 国内外冲洗液技术研究与应用进展[J]. 探矿工程(岩土钻掘工程),2016,43(5):6-12.XIONG Zhengqiang, TAO Shixian, LI Yanning, et al. Progress in research and application of flushing fluid technology both in China and abroad[J]. Exploration Engineering(Rock & Soil Drilling and Tunneling) , 2016, 43(5):6-12. [4] 张坤玲,李瑞珍,卢玉妹,等. HLB值与乳化剂的选择[J]. 石家庄职业技术学院学报,2004,16(6):20-22.ZHANG Kunling, LI Ruizhen, LU Yumei, et al. Selection of emulphor according to HLB[J]. Journal of Shijiazhuang Vocational Technology Institute, 2004, 16(6):20-22. [5] 王国帅,蒋官澄,贺垠博,等. pH刺激响应型抗高温可逆转乳化剂研制与评价[J]. 钻井液与完井液,2021,38(5):552-559.WANG Guoshuai, JIANG Guancheng, HE Yinbo, et al. Synthesis and evaluation of a pH stimulus-responsive high temperature-resistant reversible emulsifier[J]. Drilling Fluid & Completion Fluid, 2021, 38(5):552-559. [6] 张林强. 一种油基钻井液乳化剂组合的研究与评价[J]. 广州化工,2023,51(6):56-59,72.ZHANG Linqiang. Research and evaluation of an oil-based drilling fluid emulsifier combination[J]. Guangzhou Chemical Industry, 2023, 51(6):56-59,72. [7] 张凡. 井筒高含水型微乳液冲洗液研究[J]. 钻井液与完井液,2023,40(1):91-97.ZHANG Fan. Study on high water content microemulsion flushing fluid used in borehole flushing[J]. Drilling Fluid & Completion Fluid, 2023, 40(1):91-97. [8] 肖楠,朱玲,张芮鑫,等. 含油底泥高效清洗剂的研究[J]. 工业安全与环保,2018,44(7):103-106.XIAO Nan, ZHU Ling, ZHANG Ruixin, et al. Study on high efficient cleaning agent for oily sludge[J]. Industrial Safety and Environmental Protection, 2018, 44(7):103-106. [9] 黄嘉宝. 油基钻井岩屑清洗脱油处理技术研究[D]. 广州: 华南理工大学, 2017.HUANG Jiabao. Research on the cleaning and deoiling treatment technology of oil-based drilling cuttings[D]. Guangzhou: South China University of Technology, 2017. [10] 陈光, 刘秀军, 雷妍, 等. 高密度油基钻井液用耐超高温冲洗液及制备方法: CN201610700581.9[P]. 2016-08-19.CHEN Guang, LIU Xiujun, LEI Yan, et al. Ultra high temperature resistant flushing fluid and preparation method for high-density oil-based drilling fluid[P]. 2016-08-19. [11] 莫里斯·阿维,吕少华,尤金·达金. 用于井眼清洁的清洁剂及其使用方法: CN201080004448.0[P]. 2010-01-08.AVI M, LYU Shaohua, DAKIN E. Cleaners for wellbore cleaning and their usage methods: CN201080004448.0[P]. 2010-01-08. [12] 穆罕默德·拉菲·阿勒-苏卜希, 斯科特·史帝文·詹宁斯, 艾哈迈德·萨拉赫·阿勒-胡迈迪. 水泥油基泥浆隔离液配制物: CN201280050102.3[P]. 2012-10-11.RAFI AL M S, STEVEN S J, SALAH Al A H. Preparation of cement oil based mud isolation fluid: CN201280050102.3[P]. 2012-10-11. [13] 张朝武, 许宇. 一种环保水基清洗剂: CN201810217067.9[P]. 2018-03-16.ZHANG Chaowu, XU Yu. An environmentally friendly water-based cleaning agent: CN201810217067.9[P]. 2018-03-16. [14] 许明标, 王昌军, 由福昌, 等. 一种用于页岩气开发钻井的油基钻井液: CN201310570934.4[P]. 2013-11-13.XU Mingbiao, WANG Changjun, YOU Fuchang, et al. An oil-based drilling fluid for shale gas development drilling: CN201310570934.4[P]. 2013-11-13. [15] 姜涛. 表面活性剂型可加重固井前置液作用机理及应用[J]. 钻井液与完井液,2018,35(1):83-88.JIANG Tao. Study and application of mechanisms weightable surfactant treated preflush for well cementing[J]. Drilling Fluid & Completion Fluid, 2018, 35(1):83-88. [16] 李蕾. 油基钻井液滤饼清洗液室内研究[J]. 承德石油高等专科学校学报,2020,22(3):10-14,31.LI Lei. Laboratory research of filter cake removal fluid of oil-based drilling fluid[J]. Journal of Chengde Petroleum College, 2020, 22(3):10-14,31. [17] 何立成. 油气井固井多棱石英砂冲洗液的研制与现场应用[J]. 石油钻探技术,2022,50(3):46-50. doi: 10.11911/syztjs.2022064HE Licheng. Research on a polygonal quartz sand flushing fluid for cementing oil and gas wells and its field application[J]. Petroleum Drilling Techniques, 2022, 50(3):46-50. doi: 10.11911/syztjs.2022064 [18] 姜涛, 谌德宝, 肖海东, 等. 表面活性剂为悬浮剂的双效固井前置液: CN201310110182.3[P]. 2013-04-01.JIANG Tao, CHEN Debao, XIAO Haidong, et al. Double effect cementing pre fluid with surfactant as suspension agent: CN201310110182.3[P]. 2013-04-01. [19] 刘岢鑫. 脂肪酸甲酯乙氧基化物的合成及其性能研究[D]. 大庆: 东北石油大学, 2019.LIU Kexin. The study on synthesis and properties of oxyethylated fatty acid methyl esters[D]. Daqing: Northeast Petroleum University, 2019. [20] 谌德宝,亢菊峰. 即时混配型高密度固井隔离液[J]. 钻井液与完井液,2021,38(6):778-781.SHEN Debao, KANG Jufeng. An instantly prepared cementing spacer of high density[J]. Drilling Fluid & Completion Fluid, 2021, 38(6):778-781. [21] 孟仁洲,牟少敏,李渊,等. 纳米乳液型冲洗隔离液体系构建及性能评价[J]. 钻井液与完井液,2023,40(4):511-518.MENG Renzhou, MU Shaomin, LI Yuan, et al. Preparation and evaluation of a nanometer emulsion flushing spacer[J]. Drilling Fluid & Completion Fluid, 2023, 40(4):511-518. -
点击查看大图
图(3) / 表(8)
计量
- 文章访问数: 243
- HTML全文浏览量: 78
- PDF下载量: 41
- 被引次数: 0
