Development and Application of a Foam Control Agent for Acidification Operation
-
摘要: 油气田酸化施工酸液配制中产生的大量泡沫,自然消泡困难,影响正常施工;碳酸盐岩储层酸化时酸岩反应会产生大量气体,酸化结束后返排液里存大量泡沫,导致酸液的收集和处理困难。针对以上酸化产生的泡沫,使用常用的消泡剂效果差,研制了一种酸化用消泡剂,以端环氧基硅油和聚胺醚M-1000合成的氨基聚醚有机硅、二甲基硅油和白炭黑制备的硅膏为主要成分,以Span-60和Tween-60为乳化剂,以羧甲基纤维素钠为增稠剂,采用高速剪切搅拌的方式进行乳化,得到酸化用消泡剂BH-SPK。BH-SPK与酸液体系配伍性好且性能优异,在加量仅为0.5%情况下,消泡时间仅为36 s,抑泡时间可达3521 s。BH-SPK在艾哈代布油田酸化现场配制转向酸的过程中应用,有效地解决了配酸过程中产生大量泡沫的问题。Abstract: In preparing acidizing fluid, large amount of foam is generated in the fluid and is very difficult to defoam, thus affecting the normal process of acidizing operation. In acidizing carbonate reservoirs, reaction between the carbonate rocks and the acid also generates plenty of gas which generates foams in the flowback fluid and is very difficult to collect and dispose. Defoamers are used to defoam the fluid, but the effectiveness is not satisfactory. A defoamer BH-SPK used in acidizing fluids has been developed to address these problems. BH-SPK is formulated with several chemical compounds, such as amino polyether silicone made from end epoxy silicone oil and polyamine ether M-1000, and silicone paste made from dimethyl silicone oil and white carbon black. These two compounds are the main components of the defoamer. Other components include SPAN-60 and TWEEN-60 as emulsifier, and sodium carboxymethylcellulose as viscosifier. BH-SPK is produced by mixing these components at high shear rates. BH-SPK is well compatible with the acids used for acidizing job and has excellent properties. At a concentration of 0.5% BH-SPK, time for defoaming is only 36 s, and time for inhibiting the generation of foam is 3,521 s. BH-SPK has been used in making converting acid in the Al-Ahdab oilfield, effectively resolved the serious foaming problem in formulating acid solution.
-
Key words:
- Acidizing operation /
- Defoam /
- Foam inhibition /
- Foam control agent /
- Amino polyether silicone
-
[1] GARRETT P R. Defoaming:antifoams and mechanical methods[J].Current Opinion in Colloid & Interface Science,2015,20(2):81-91. [2] RADULOVIC J,SEFIANE K,HANAHAN M E R. Capillary rise of superspreaders[J].Journal of Colloid & Interface Science,2011,361(2):643-648. [3] 黎方潜,唐昊,庄柯,等. 聚醚改性有机硅消泡剂的制备及性能评价[J]. 应用化工,2017,46(2):1695-1699.LI Fangqian,TANG Hao,ZHUANG Ke,et al. Preparation and evaluation of polyether modified polysiloxanedefoamer[J].Applied Chemical Industry, 2017,46(2):1695-1699. [4] 蒋晓青,陈永康,季永新. 乳液型聚醚改性有机硅消泡剂的合成及性能研究[J]. 涂料工业,2017,47(8):33-37,44. JIANG Xiaoqing,CHEN Yongkang,JI Yongxin. Synthesis and property of emulsified polyether modified silicone defoamer[J].Paint & Coatings Industry,2017, 47(8):33-37,44. [5] 鲁亚青,张楠,王文宗,等. 聚醚改性硅油消泡剂消泡机理研究[J]. 有机硅材料,2010,24(2):80-84.LU Yaqing,ZHANG Nan,WANG Wenzong,et al. Study on defoaming mechanism of polyether modified Silicon oil defoaming agent[J].Silicone Material,2010, 24(2):80-84. [6] 王宸宸,左一杰,杨艳娜,等. 油用消泡剂的消泡抑泡性能评价[J]. 有机硅材料,2017,46(4):646-649, 654. WANG Chenchen,ZUO Yijie,YANG Yanna,et al. Defoaming and antifoaming performance evaluation of defoamers used in oil system[J].Applied Chemical Industry,2017,46(4):646-649,654. [7] 陈挺,杨彬,邵泽恩,等. 聚醚改性有机硅消泡剂性能评价及应用[J]. 石油化工应用,2017,36(5):90-93.CHEN Ting,YANG Bin,SHAO Ze en,e t a l. Performance evaluation and field application of polyether modified silicone defoamer[J].Petrochemical Industry Application,2017,36(5):90-93. [8] 刘亚伟,陈海平,张丹丹,等. 乳液型有机硅消泡剂性能影响因素的分析[J]. 有机硅材料,2016,30(5):400-402.LIU Yawei,CHEN Haiping,ZHANG Dandan,et al. Analysis on influence factors on property of silicone emulsion defoamer[J].Silicone Material,2016,30(5):400-402. [9] 张金生,李丽华,姜蔚蔚,等. 油井水泥有机硅改性聚醚酯消泡剂[J]. 钻井液与完井液,2013,30(6):55-57,95. ZHANG Jinsheng,LI Lihua,JIANG Weiwei,et al. Polyether modified polysiloxanedefoamer for oil well cement[J].Drilling Fluid & Completion Fluid,2013,30(6):55-57,95. [10] 高燕,张龙军,向泽龙,等. 钻井液消泡剂RXJ的制备及应用[J]. 钻井液与完井液,2014,31(5):89-91, 102. GAO Yan,ZHANG Longjun,XIANG Zelong,et al. Preparation and application of drilling fluid defoaming agent RXJ[J].Drilling Fluid & Completion Fluid,2014, 31(5):89-91,102. [11] HANSEN J D,HEIDT M L,NEVEN L G,et al. Effect of highpressure hot-water washing treatment on fruit quality, insects, and disease in apples and pears:Part Ⅲ. Use of silicone-based materials and mechanical methods to eliminate surface pests[J]. Postharvest Biology & Technology,2006,40(3):221-229.
点击查看大图
计量
- 文章访问数: 532
- HTML全文浏览量: 169
- PDF下载量: 193
- 被引次数: 0