表面活性聚合物的结构性能及在油田化学中的研究进展
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摘要
综述了表面活性聚合物的分类、合成、溶液性能及在油田相关领域中的研究进展。介绍了主链为纤维素链的表面活性聚合物、主链为壳聚糖链的表面活性聚合物、主链为C—C链的表面活性聚合物的结构及性能以及表面活性聚合物的合成方法,包括大分子单体聚合法、疏水单体聚合法和聚合物接枝改性法,并对该材料的发展前景做了展望。
The classification,synthetize,property and progress of surface active polymer in oilfield chemistry were introduced.The structure,property and synthetic approaches of main chain is Cellulose,chitosan and C—C chain of surface active polymer was presented.The synthetic approaches which is include macromolecular monomer polymerization,hydrophobic monomer polymerization and graft modification of polymer,and then focus on the solution performance.Finally,the advances of surface active polymer are prospected.
The classification,synthetize,property and progress of surface active polymer in oilfield chemistry were introduced.The structure,property and synthetic approaches of main chain is Cellulose,chitosan and C—C chain of surface active polymer was presented.The synthetic approaches which is include macromolecular monomer polymerization,hydrophobic monomer polymerization and graft modification of polymer,and then focus on the solution performance.Finally,the advances of surface active polymer are prospected.
引文
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[30]葛玉翠.水溶性两亲聚丙烯酰胺的合成与性能评价[D].中国石油大学:华东,2012.
[31]刘慷慨,高保娇,李蕾.可聚合双季铵盐阳离子表面活性剂[J].石油化工,2006,35(11):1082-1085.
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[33]Summers M,Eastoe J,Davis S,et al.Polymerization of Cationic Surfactant Phases[J].Langmuir,2001,17(8):5388-5397.
[34]刘慷慨,高保娇.新型可聚合双季铵盐阳离子表面活性剂的合成与表征[J].合成化学,15(6):706-709.
[35]王宪中,康万利等.2011全国高分子学术论文报告会[C].辽宁:大连,2011.
[36]曹晓荣.水溶性高分子表面活性剂聚集行为[D].山东:山东大学,2007.
[37]徐坚.AM/AEOnA/NaMAA三元共聚物的结构、水溶液表面活性及流变性能[J].油田化学,1998,15(1):58-63.
[38]王晓晓.嵌段型高分子表面活性剂的合成及其在乳液聚合中的应用[D].北京化工大学,2013.
[39]J.Yang,H.Li.Micellar behavior of acrylamide octylphenylpoly(oxyethylene)axrylate copolymer in aqueous solution[J].Colloid And Polymer Science.1999,277:1098-1103.
[40]桂张良,安全福,钱锦文等.高分子表面活性剂P(AM-co-OPMA)的合成与表征[J].高分子学报,2008,10,10:955-960.
[41]曹亚,李惠林.CMC系列高分子表面活性剂与原油超低界面张力形成机理的研究[J].高等学校化学学报,2001,22,2:312-316.
[42]Qi G,Li H,Zhu R,et al.Synthesis,characterization,and solution behavior of a long-chain hydrophobic association anionic acrylamide/2-acrylamido-2-methylpropanesulfonic acid/n-octyl acrylate terpolymers[J].Arabian Journal for Science&Engineering,2017,42(6):2425-2432.
[2]孔柏岭,罗久明.高温油藏条件下聚丙烯酰胺水解反应研究[J].石油勘探与开发.1998,25(6):67.
[3]孔柏岭.聚丙烯酰胺的高温水解作用及其选型研究[J].西南石油学院学报,2000,22(1):66.
[4]Zhang P,Bai S,Chen S,et al.Preparation,solution characteristics and displacement performances of a novel acrylamide copolymer for enhanced oil recovery(EOR)[J].Polymer Bulletin,2017,75(3):1-11.
[5]Maia A M S,Borsali R,Balaban R.C.Comparison between a polyacrylamide and a hydrophobically modified polyacrylamide flood in a sandstone core[J].Materials Science and Engineering:C,2009,29:505-509.
[6]Gou Shaohua,Yin Ting.Water-soluble complexes of hydrophobically modified polymer and surface active imidazolium-based Ionic liquids for enhancing oil recovery[J].Colloids and Surfaces A:Physicochem Eng Aspects,2015,471:45-53.
[7]Andrei Bureiko,Anna Trybala.Current applications of foams formed from mixed surfactant-polymer solutions[J].Advances in Colloid and Interface Science,2014:1-8.
[8]刘平德,张松.新型表面活性聚合物驱油剂[J].石油勘探与开发,2012,39(5):580-584.
[9]徐坚.高分子表面活性剂的分子设计[J].高分子通报,1992,4(2):90-94.
[10]Elsabee M Z,Morsi R E.Surface active properties of chitosan and its derivatives[J].Colloids and Surfaces B:Biointerfaces,2009,74:1-16.
[11]Kjoniksen A L,Beheshti N,Kotlar H K,et al.Modified polysaccharides for use in enhanced oil recovery applications[J].EurPolym J,2008,44:959-67.
[12]Sun Wenbin,Sun Dejun.Oil-in-water emulsions stabilized by hydrophobically modified hydroxyethyl cellulose:Adsorption and thickening effect[J].Journal of Colloid and Interface Science,2007,311:228-236.
[13]Jiang Dejun,Yin Yuanyuan.Decolorization of anionic dye solutions using the hydrophobically modified polyelectrolytes containing beta-cyclodextrin moieties[J].Chemical Engineering Journal,2014,253:183-189.
[14]Kjoniksen A L,Beheshti N,Kotlar H K,et al.Modified polysaccharides for use in enhanced oil recovery applications[J].Eur Polym J,2008,44:959-67.
[15]Kawakami K,Ihara T,Nishioka T,et al.Salt tolerance of an aqueous solution of a novel amphiphilic polysaccharide derivative[J].Langmuir,2006,22:3337-3343.
[16]Ihara T,Nishioka T,Kamitani H,et al.Solution properties of a novel polysaccharide derivative[J].Chem Lett,2004,33(9):1094-1095.
[17]Akiyama E,Yamamoto T,Yago Y,et al.The effect of the substitution ratio of hydrophobic/hydrophilic moieties[J].J Colloid Interface Sci,2007,311:438-46.
[18]Um SU,Poptoshev E,Pugh RJ.Aqueous solutions of ethyl(hydroxyethyl)cellulose and hydrophobic modified ethyl(hydroxyethyl)cellulose polymer:dynamic surface tension measurements[J].J Colloid Interface Sci,1997,193:41-49.
[19]Lu Y,Wu H,Meng Z.Salt effect on hydrophobically modified polyacrylamide-containing crude oil emulsions:stability and rheology study.Colloid&Polymer Science,2018,296(3):515-527.
[20]Zhong Chuanrong,Zhang Heng,Feng Lemeng.Solution behavior and associating structures of a salt-tolerant tetrapolymer containing an allyl-capped macromonomer[J].JPolym Res,2014,21:604.
[21]Korchagina E V,Philippova O E.Effects of hydrophobic substituents and salt on core-shell aggregates of hydrophobically modified chitosan:light scattering study[J].Langmuir,2012,28:7880-7888.
[22]Mai-ngam K.Comblike poly(ethylene oxide)/hydrophobic C6branched chitosan surfactant polymers as anti-infection surface modifying agents[J].Colloids and Surfaces B:Biointerfaces,2006,49:117-125.
[23]Pérez-Gramatges A,Matheus C R V.Surface and interfacial tension study of interactions between water-soluble cationic and hydrophobically modified chitosans and nonylphenol ethoxylate[J].Colloids and Surfaces A:Physicochem Eng Aspects,2013,418:124-130.
[24]Onésippe C,Lagerge S.Studies of the association of chitosan and alkylated chitosan with oppositely charged sodium dodecyl sulfate[J].Colloids and Surfaces A:Physicochem Eng Aspects,2008,330:201-206.
[25]Nystrom B,Kjniksen A L.Characterization of association phenomena in aqueous systems of chitosan of different hydrophobicity[J].Advances in Colloid and Interface Science,1999,79:81-103.
[26]Zhang Y,Mei L,Fang Q,et al.Effect of incorporating a trace amount of fluorocarbon into poly(Nisopropylacrylamide)on its association in water[J].Macromolecules,1998,31:2527-2532.
[27]Zhang Y,Wu C,Fang Q,Zhang YX.A light scattering study of the aggregation behavior of fluorocarbon modified polyacrylamides in water[J].Macromolecules,1996,29:2494-2497.
[28]Zhang YX,Fang Q,Fu YQ,et al.Synthesis and characterization of fluorocarbon-modified poly(Nisopropylacrylamide)[J].Polym Int,2000,49:763-74.
[29]王芳平.聚丙烯酸型两亲接枝共聚物的合成、表征及其水溶液中自组装行为的研究[D].兰州:西北师范大学,2008.
[30]葛玉翠.水溶性两亲聚丙烯酰胺的合成与性能评价[D].中国石油大学:华东,2012.
[31]刘慷慨,高保娇,李蕾.可聚合双季铵盐阳离子表面活性剂[J].石油化工,2006,35(11):1082-1085.
[32]Wu Huawei,Kawaguchi Seigou,Ito Koichi.Synthesis and Polymerization of Tail-Type Cationic Polymerizable Surfactants and Hydrophobic Counter-Anion Induced Association of Poiyelectrolyte[J].Colloid Polym Sci,2004,282(14);1365-1373.
[33]Summers M,Eastoe J,Davis S,et al.Polymerization of Cationic Surfactant Phases[J].Langmuir,2001,17(8):5388-5397.
[34]刘慷慨,高保娇.新型可聚合双季铵盐阳离子表面活性剂的合成与表征[J].合成化学,15(6):706-709.
[35]王宪中,康万利等.2011全国高分子学术论文报告会[C].辽宁:大连,2011.
[36]曹晓荣.水溶性高分子表面活性剂聚集行为[D].山东:山东大学,2007.
[37]徐坚.AM/AEOnA/NaMAA三元共聚物的结构、水溶液表面活性及流变性能[J].油田化学,1998,15(1):58-63.
[38]王晓晓.嵌段型高分子表面活性剂的合成及其在乳液聚合中的应用[D].北京化工大学,2013.
[39]J.Yang,H.Li.Micellar behavior of acrylamide octylphenylpoly(oxyethylene)axrylate copolymer in aqueous solution[J].Colloid And Polymer Science.1999,277:1098-1103.
[40]桂张良,安全福,钱锦文等.高分子表面活性剂P(AM-co-OPMA)的合成与表征[J].高分子学报,2008,10,10:955-960.
[41]曹亚,李惠林.CMC系列高分子表面活性剂与原油超低界面张力形成机理的研究[J].高等学校化学学报,2001,22,2:312-316.
[42]Qi G,Li H,Zhu R,et al.Synthesis,characterization,and solution behavior of a long-chain hydrophobic association anionic acrylamide/2-acrylamido-2-methylpropanesulfonic acid/n-octyl acrylate terpolymers[J].Arabian Journal for Science&Engineering,2017,42(6):2425-2432.