聚合物驱采出液和含油污水的油水分离研究
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摘要
目前许多大油田均已处于开发晚期,聚合物驱油技术在油田得到广泛应用,使油田采出液的成分日趋复杂,破乳脱水更加困难,而且脱出水的水质差、含油量高。针对影响乳状液稳定性的各种因素,研究聚合物驱采出液和含油污水油水分离技术对于指导油田生产意义重大。随着聚合物驱的实施,大庆油田油井采出液和含油污水油水乳状液的稳定性显著增强,使得油田已建采出液和含油污水处理设施的处理能力显著下降,部分含油污水处理站由于处理能力达不到要求而造成处理后水质严重超标。为解决大庆油田聚合物驱采出液和含油污水的油水分离问题,本文以取自现场的实际聚合物驱采出液和含油污水为介质,研究了聚合物驱采出液和含油污水的油水分离特性以及含油污水中O/W型原油乳状液的稳定机理。根据聚合物驱采出液的油水分离特性和破乳剂在其中的传质过程,提出了以油水分离剂替代破乳剂和絮凝剂,一并解决聚合物驱采出液和含油污水油水分离问题的思路,研制了两个分别适用于含油污水气浮除油和沉降除油工艺的油水分离剂,在现场试验中解决了一座联合站游离水脱除器放水和处理后污水含油量长期超标的问题。
Now many big oil fields have been in the development later period, the polymer floodingtechnology has been used widely to the oil field. Causes the ingredient of the oil field produced fluidcomplex. Gradually, demulsification and dehydration more difficult, the water quality of dehydration isnot good, oil cut is high. In view of the factors of influence emulsion stability, study the oil/waterseparation technology for produced liquid and oily water of polymer flooding is important to direct oilfield production, because the employment of polymer flooding, the stability for produced liquid and oilywater emulsion of the Daqing oil field well remarkable enhance, cause the oil field constructed treatmentfacility ability which handle produced liquid and oily water remarkable drop. The part oily water disposalstation because the handling ability insufficiently lead to the water quality seriously to exceed theallowed figure after witch is disposed. In order to solve the water-oil separation problem of Daqing oilfield polymer flooding produced liquid and oily water. This article take the actual produced liquid andoily water of polymer flooding which take from the scene as the medium. Studied the water-oilseparation characteristic of the produced liquid and oily water of polymer flooding and the stablemechanism of O/W crude oil emulsion. According to the water-oil separation characteristic of thepolymer flooding produced liquid and the transmission medium process of demulsifier in which,proposed an idea of using oil/water separation agent demulsifier and flocculant to solve water-oilseparation problem of the polymer flooding produced liquid and oily water, developed two oil/waterseparation agent which is separately suitable to the progress of the float eliminate oil and the subsidenceeliminate oil, solved the problem of the free water knockout turn on the water and oil content seriously toexceed the allowed figure for a long time after witch is disposed.
Now many big oil fields have been in the development later period, the polymer floodingtechnology has been used widely to the oil field. Causes the ingredient of the oil field produced fluidcomplex. Gradually, demulsification and dehydration more difficult, the water quality of dehydration isnot good, oil cut is high. In view of the factors of influence emulsion stability, study the oil/waterseparation technology for produced liquid and oily water of polymer flooding is important to direct oilfield production, because the employment of polymer flooding, the stability for produced liquid and oilywater emulsion of the Daqing oil field well remarkable enhance, cause the oil field constructed treatmentfacility ability which handle produced liquid and oily water remarkable drop. The part oily water disposalstation because the handling ability insufficiently lead to the water quality seriously to exceed theallowed figure after witch is disposed. In order to solve the water-oil separation problem of Daqing oilfield polymer flooding produced liquid and oily water. This article take the actual produced liquid andoily water of polymer flooding which take from the scene as the medium. Studied the water-oilseparation characteristic of the produced liquid and oily water of polymer flooding and the stablemechanism of O/W crude oil emulsion. According to the water-oil separation characteristic of thepolymer flooding produced liquid and the transmission medium process of demulsifier in which,proposed an idea of using oil/water separation agent demulsifier and flocculant to solve water-oilseparation problem of the polymer flooding produced liquid and oily water, developed two oil/waterseparation agent which is separately suitable to the progress of the float eliminate oil and the subsidenceeliminate oil, solved the problem of the free water knockout turn on the water and oil content seriously toexceed the allowed figure for a long time after witch is disposed.
引文
[1] 李圣勇,李圣涛,陈馥.聚合物驱提高采收率发展现状与趋势[J].化工时刊,2005,6(3):1~3.
[2] 郭万奎,程杰成,廖广志.大庆油田三次采油技术研究现状及发展方向[J].大庆石油地质与开发,2004,4(2):26~30.
[3] 李林,何跃辉,李江北.聚合物驱油工艺现状及其发展[J].国外油田工程,2005,31(6):18~22.
[4] 牟建海,李干佐.三次采油技术的发展现状及展望[J].化工科技市场,2004,23(5):7~9.
[5] 张春玲,林梅钦,李明远,等.影响聚合物驱采出液稳定性因素研究[A].中国化学会第十届胶体与界面化学会议论文摘要集[C],2004,17~32.
[6] 李洪巍.三元复合驱采出液乳化和稳定机理研究[D].哈尔滨工程大学,2004.
[7] 翟庆英.沥青质和胶质稳定的油包水乳状液的破乳研究[J].油田化学,2004,6(1):1~3.
[8] 杨小莉,陆婉珍.有关原油乳状液稳定性的研究[J].油田化学,2005,23(8):11~13.
[9] 康万利,单希林,龙安厚,等.破乳剂对复合驱乳状液的破乳机理研究[J].高等学校化学学报,1999,6(5):20~23.
[10] 吴迪,孟祥春,赵凤玲,等.油水分离剂在化学驱采出液和含油污水处理中的应用[A].(第八届)国际表面活性剂和洗涤剂会议论文集[C],2004,120~125.
[11] 连鹏,李明远,林梅钦,等.聚合物驱采出液油水分离特性研究[A].中国化学会第十届胶体与界面化学会议论文摘要集[C],2004.
[12] 吴迪,孙福祥,孟祥春,等.大庆油田三元复合驱采出液的油水分离特性[J].精细化工,2005,6(3):23~26.
[13] 邓述波,周抚生,陈忠喜,等.聚丙烯酰胺对聚合物驱含油污水中油珠沉降分离的影响[J].环境科学,2005,21(6):8~12.
[14] 隋智慧,秦煜民.油水分离技术的研究进展[J].油气国地面工程,2002,8(2):30~35.
[15] 吴迪,王瑞泉.孟祥春,等.聚合物驱采出液和含油污水油水分离化学剂的研制[J].精细化工,2005,18(2):28~31.
[16] 郭春昱.含聚污水高效絮凝剂的研制[D].吉林大学,2006
[17] 吴迪,余刚.三元复合驱含油污水油水分离剂的研制[J].工业水处理,2004,5(1):16~22.
[18] 李国珍,肖华,董守平.油水分离技术及其进展[J].油气田地面工程,2006,18(2):12~15.
[19] 国丽萍.三元复合驱采出液化学破乳的研究[D].大庆石油学院,2005.
[20] 康万利,刘永建.我国复合驱用表面活性剂研究进展[J].日用化学工业,2000,6(4):8~12.
[21] 唐广杰.辽海滩海地区油田高效油水分离装置的研制[J].特种油气藏,2005,6 (3):21~23.
[22] 阎安,王玉江,贾建清.含油废水气浮处理药剂的应用与研究进展[J].工业水处理,2006,21(5):6~9.
[23] 姜宝山.油田含油污水处理新工艺及配套技术研究[D].大庆石油学院,2004.
[24] Belshell P. Progress and Prospects of Tertiary Oil Recovery Technology[M]. Verified Edition, Beijing: Science Press, 2005, 23 (3): 121~126.
[25] Brinkman H C. The viscosity of concentrated solutions and suspensions[J]. Phys. Chem. Hydrodynamics 11, 2006, 15 (7): 487~506.
[26] Richarcl A, Dawe R A, Zhang Y. Mechanistic study of the selectiveaction of oil and water penetrating into a gel emplaced in a porous me-diurn of Petroleum Science and Engineering[J]. Journal of the Association for Computing Machinery, 2006, 6 (6): 5~9.
[27] Jeen Tai Liang, Sun H, Seright R S. Why do gels reduce water pexme-ability more than oil permeability[J]. Petroleum Science And Technology, 2000, 8 (6): 282~286.
[28] Fang Yiqun, Liu Yuanxia, Ke Yucai, et al. Application of Oil/Water Separation Agent to the Treatment of Chemical Flooding Produced Liquid and Oily Water[J]. Petroleum Science And Technology, 2002, 235 (12): 33~38.
[29] 唐善法,刘芬.气浮技术处理聚合物驱含油污水研究[J].石油天然气学报,2006,(4):131-133.
[30] 张韶晖.泡沫复合驱采出液处理用破乳剂的研制[D].吉林大学,2004.
[31] 郭春昱.含聚污水高效絮凝剂的研制[D].吉林大学,2006
[32] 刘刚.弱碱性三元复合采出液乳化与破乳行为研究[D].大连理工大学,2006.
[33] 孔凡贵.高级氧化技术处理油田水中污染物的研究[D].大庆石油学院,2004.
[34] 崔笛.孤东油田采油污水高效处理技术研究[D].西南石油学院,2004.
[35] 刘岩.聚合物驱含油污水絮凝剂研究[D],吉林大学,2004.
[36] 唐琼.处理油田废水的多功能阳离子絮凝剂的合成及性能研究[D].四川大学,2004.
[37] 林忠胜.混凝吸附法处理含油废水的技术研究[D].大连理工大学,2004.
[38] 李金莲.Fenton技术处理含聚丙烯酰胺废水的研究[D].大庆石油学院,2005.
[39] 杨钊.聚合物驱微观剩余油分布及分子动力学模拟[D].大庆石油学院,2004.
[40] 张鹏.现代油水分离技术[A].机械工程学会学术会议论文集[C],2004.
[2] 郭万奎,程杰成,廖广志.大庆油田三次采油技术研究现状及发展方向[J].大庆石油地质与开发,2004,4(2):26~30.
[3] 李林,何跃辉,李江北.聚合物驱油工艺现状及其发展[J].国外油田工程,2005,31(6):18~22.
[4] 牟建海,李干佐.三次采油技术的发展现状及展望[J].化工科技市场,2004,23(5):7~9.
[5] 张春玲,林梅钦,李明远,等.影响聚合物驱采出液稳定性因素研究[A].中国化学会第十届胶体与界面化学会议论文摘要集[C],2004,17~32.
[6] 李洪巍.三元复合驱采出液乳化和稳定机理研究[D].哈尔滨工程大学,2004.
[7] 翟庆英.沥青质和胶质稳定的油包水乳状液的破乳研究[J].油田化学,2004,6(1):1~3.
[8] 杨小莉,陆婉珍.有关原油乳状液稳定性的研究[J].油田化学,2005,23(8):11~13.
[9] 康万利,单希林,龙安厚,等.破乳剂对复合驱乳状液的破乳机理研究[J].高等学校化学学报,1999,6(5):20~23.
[10] 吴迪,孟祥春,赵凤玲,等.油水分离剂在化学驱采出液和含油污水处理中的应用[A].(第八届)国际表面活性剂和洗涤剂会议论文集[C],2004,120~125.
[11] 连鹏,李明远,林梅钦,等.聚合物驱采出液油水分离特性研究[A].中国化学会第十届胶体与界面化学会议论文摘要集[C],2004.
[12] 吴迪,孙福祥,孟祥春,等.大庆油田三元复合驱采出液的油水分离特性[J].精细化工,2005,6(3):23~26.
[13] 邓述波,周抚生,陈忠喜,等.聚丙烯酰胺对聚合物驱含油污水中油珠沉降分离的影响[J].环境科学,2005,21(6):8~12.
[14] 隋智慧,秦煜民.油水分离技术的研究进展[J].油气国地面工程,2002,8(2):30~35.
[15] 吴迪,王瑞泉.孟祥春,等.聚合物驱采出液和含油污水油水分离化学剂的研制[J].精细化工,2005,18(2):28~31.
[16] 郭春昱.含聚污水高效絮凝剂的研制[D].吉林大学,2006
[17] 吴迪,余刚.三元复合驱含油污水油水分离剂的研制[J].工业水处理,2004,5(1):16~22.
[18] 李国珍,肖华,董守平.油水分离技术及其进展[J].油气田地面工程,2006,18(2):12~15.
[19] 国丽萍.三元复合驱采出液化学破乳的研究[D].大庆石油学院,2005.
[20] 康万利,刘永建.我国复合驱用表面活性剂研究进展[J].日用化学工业,2000,6(4):8~12.
[21] 唐广杰.辽海滩海地区油田高效油水分离装置的研制[J].特种油气藏,2005,6 (3):21~23.
[22] 阎安,王玉江,贾建清.含油废水气浮处理药剂的应用与研究进展[J].工业水处理,2006,21(5):6~9.
[23] 姜宝山.油田含油污水处理新工艺及配套技术研究[D].大庆石油学院,2004.
[24] Belshell P. Progress and Prospects of Tertiary Oil Recovery Technology[M]. Verified Edition, Beijing: Science Press, 2005, 23 (3): 121~126.
[25] Brinkman H C. The viscosity of concentrated solutions and suspensions[J]. Phys. Chem. Hydrodynamics 11, 2006, 15 (7): 487~506.
[26] Richarcl A, Dawe R A, Zhang Y. Mechanistic study of the selectiveaction of oil and water penetrating into a gel emplaced in a porous me-diurn of Petroleum Science and Engineering[J]. Journal of the Association for Computing Machinery, 2006, 6 (6): 5~9.
[27] Jeen Tai Liang, Sun H, Seright R S. Why do gels reduce water pexme-ability more than oil permeability[J]. Petroleum Science And Technology, 2000, 8 (6): 282~286.
[28] Fang Yiqun, Liu Yuanxia, Ke Yucai, et al. Application of Oil/Water Separation Agent to the Treatment of Chemical Flooding Produced Liquid and Oily Water[J]. Petroleum Science And Technology, 2002, 235 (12): 33~38.
[29] 唐善法,刘芬.气浮技术处理聚合物驱含油污水研究[J].石油天然气学报,2006,(4):131-133.
[30] 张韶晖.泡沫复合驱采出液处理用破乳剂的研制[D].吉林大学,2004.
[31] 郭春昱.含聚污水高效絮凝剂的研制[D].吉林大学,2006
[32] 刘刚.弱碱性三元复合采出液乳化与破乳行为研究[D].大连理工大学,2006.
[33] 孔凡贵.高级氧化技术处理油田水中污染物的研究[D].大庆石油学院,2004.
[34] 崔笛.孤东油田采油污水高效处理技术研究[D].西南石油学院,2004.
[35] 刘岩.聚合物驱含油污水絮凝剂研究[D],吉林大学,2004.
[36] 唐琼.处理油田废水的多功能阳离子絮凝剂的合成及性能研究[D].四川大学,2004.
[37] 林忠胜.混凝吸附法处理含油废水的技术研究[D].大连理工大学,2004.
[38] 李金莲.Fenton技术处理含聚丙烯酰胺废水的研究[D].大庆石油学院,2005.
[39] 杨钊.聚合物驱微观剩余油分布及分子动力学模拟[D].大庆石油学院,2004.
[40] 张鹏.现代油水分离技术[A].机械工程学会学术会议论文集[C],2004.