树枝状和超支化聚酰胺-胺在我国油田化学的应用进展*

doi:10.11896/j.issn.1005-023X.2017.013.008

《材料导报》期刊社

2017, Vol. 31

Issue (13): 63-68 https://doi.org/10.11896/j.issn.1005-023X.2017.013.008

材料综述

树枝状和超支化聚酰胺-胺在我国油田化学的应用进展^*

毕研刚¹, 许泽军¹, 贾欣茹¹, 李雁², 李武松³, 刘聪聪³

1 北京大学化学与分子工程学院高分子科学与工程系,高分子化学与物理教育部重点实验室,北京 100871;
2 河北工程大学数理科学与工程学院,邯郸 056038;
3 威海晨源分子新材料有限公司,威海 264211

Applications of Dendrimer and Hyperbranched Polyamidoamine in Oilfield Technology of China: An Overview

BI Yangang¹, XU Zejun¹, JIA Xinru¹, LI Yan², LI Wusong³, LIU Congcong³

1 Department of Polymer Science & Engineering and The Key Laboratory of Polymer Chemistry and Physics of the Ministry of Education, College of Chemistry & Molecular Engineering, Peking University, Beijing 100871;
2 Institute of Mathematical Science and Engineering, Hebei University of Engineering, Handan 056038;
3 Weihai CY Dendrimer Techonology Co. Ltd., Weihai 264211

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摘要树枝状、超支化聚酰胺-胺及衍生物是一类具有高支化度和独特拓扑结构的高分子纳米材料,在原油处理中可作为破乳剂、絮凝剂、驱油剂和阻垢剂等。重点介绍了季铵盐化和嵌段聚醚前后的改性聚酰胺-胺在含油乳液破乳和絮凝方面的研究和应用现状,简要阐述了该类聚酰胺-胺及衍生物作为破乳剂和絮凝剂的破乳机理,展望了可循环利用的含磁性体树枝状破乳剂的潜在应用价值和发展趋势。

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	毕研刚
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	李雁
	李武松
	刘聪聪

关键词: 树枝状聚酰胺-胺破乳剂絮凝剂阻垢剂磁性体

Abstract: Dendritic and hyperbranched polyamidoamine as well as their modified derivatives are kinds of nano-materials that characterized as treelike and appeared unique architecture. They could be utilized as demulsifier, flocculating agent, oil-displacing agent, antiscale etc. in the oilfield technology. Herein, the dendrimers, hyperbranched polyamidoamines and their modified derivatives which could efficiently separate oil from the emulsions are discussed with emphasis. Moreover, the mechanism of these polya-midoamines used as demulsification and flocculating agent is briefly introduced. In the end, an outlook of possible future researches on the issue of magnetic dendritic polymers that could be recyclable demulsifier materials is involved as well.

Key words: polyamidoamines demulsifier flocculating agent antiscaling agent magnet

出版日期: 2017-07-10 发布日期: 2018-05-04

ZTFLH:

O633.4

基金资助: *国家自然科学基金(21274004)

通讯作者: 贾欣茹:通讯作者,教授,博士研究生导师,主要研究领域:树枝状分子、树枝化聚合物的合成、修饰与性能;基于树枝状分子的仿生水凝胶;多功能药物载体;力响应分子与聚合物的合成与性质 E-mail:xrjia@pku.edu.cn 李武松:通讯作者,男,高级工程师,总经理,从事树枝状及超支化高分子的研究 E-mail:cyliwusong@126.com

作者简介: 毕研刚:男,1984年生,博士后,从事树枝状高分子破乳剂的研究 E-mail:longgang-54@126.com

引用本文:

毕研刚, 许泽军, 贾欣茹, 李雁, 李武松, 刘聪聪. 树枝状和超支化聚酰胺-胺在我国油田化学的应用进展^*[J]. 《材料导报》期刊社, 2017, 31(13): 63-68.
BI Yangang, XU Zejun, JIA Xinru, LI Yan, LI Wusong, LIU Congcong. Applications of Dendrimer and Hyperbranched Polyamidoamine in Oilfield Technology of China: An Overview. Materials Reports, 2017, 31(13): 63-68.

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http://www.mater-rep.com/CN/10.11896/j.issn.1005-023X.2017.013.008 或 http://www.mater-rep.com/CN/Y2017/V31/I13/63

1 Imaoka T, Kitazawa H, Chun W, et al. Finding the most catalytically active platinum clusters with low atomicity[J]. Angew Chem, 2015,127(34) 9948.
2 Li L,Ma C,Wan X B,et al. Synthesis and application of dendrimers in oilfield chemistry[J]. Morden Chem Ind,2012 (6):16 (in Chinese).
李龙,马茶,苑旭波,等. 树枝状聚合物的合成及其在油田化学中的应用[J]. 现代化工,2012(6):16.
3 Tomalia D A, Baker H, Dewald J, et al. A new class of polymer: Starburst-dendritic mac-romolecules[J].Polym J,1985,17(1):117.
4 Wang J, Li C Q, Li J, et al. Demulsificati-on of crude oil emulsion using polyamido-amine dendrimers[J]. Sep Sci Technol,2007, 42(9):2111.
5 Wang Y,Wang C L,Jiang C Y,et al. Synthesis and oil removal performance of polyamide-amine dendrimer[J]. Petrochem Technol Appliaction,2010(2):116(in Chinese).
王瑜,王春磊,姜翠玉,等. 聚酰胺-胺树状大分子的合成及其除油性能研究[J]. 石化技术与应用,2010(2):116.
6 Yu G,Xu W G,Zhou G Z,et al. A new macromolecular flocculant in the treatment of oily wastewater in oilfields[J]. J Beijing Institute of Technology, 2003(2):260(in Chinese).
于洸,徐文国,周贵忠,等. 新型高分子絮凝剂处理含油废水的研究[J]. 北京理工大学学报,2003(2):260.
7 Zhou G Z,Tan H M,Luo Y J,et al. Synthsis of a demulsifier for dense oil-polluted water and study of its characteristics[J]. Ind Water Wasterwater,2004,35(2):79(in Chinese).
周贵忠,谭惠民,罗运军,等. 一种稠油原油污水处理破乳剂的合成及性能研究[J]. 工业用水与废水,2004,35(2):79.
8 Hao L, Jiang B, Zhang L, et al. Efficient demulsification of diesel-in-water emulsions by different structural dendrimer-based demulsifiers[J]. Ind Eng Chem Res,2016,55(6): 1748.
9 Zhang B, Sun P, Chen F, et al. Synergistic inhibition effect of polya- minoamide dendrimers and polyepoxysuccinic acid on silica polymerization[J]. Colloid Surface A,2012,410:159.
10 Chen Y, Zhang Y,Gao Q H,et al. Synthesis and application research in water treatment of the polyamidoamine dendrimer[J].Chem Engineer,2014(1):45(in Chinese).
陈颖,张媛,高清河,等. 聚酰胺-胺的合成及在水处理中的应用[J]. 化学工程师,2014(1):45.
11 Li C Q,Wang J,Yang H J,et al. Demulsification and visbreaking of dendrimers on crude oil[J]. Chem Engineer,2005,19(9):16(in Chinese).
李翠勤,王俊,杨洪军,等. 树枝状大分子对原油的破乳与降粘作用[J]. 化学工程师,2005,19(9):16.
12 Yanez A M, Campbell R A, Nylander T. Adsorption of mixtures of poly(amidoamine) dendrimers and sodium dodecyl sulfate at the air-water interface[J]. Langmuir,2014,30(20): 5817.
13 Luo Y J,Yu P,Luo Y B. Research on the modified polyamidoamine to the treatment of oil-bearing wastewater[J]. Ind Water Treatment,2016(5):63(in Chinese).
罗宇佳,于萍,罗运柏. 改性聚酰胺-胺在含油有机废水处理中的应用研究[J]. 工业水处理,2016(5):63.
14 Liu Y C,Bi C F,Zhao Y,et al. Series of polyamidoamine demulsifier and its demulsification for the O/W simulated oil-polluted water[J]. Periodical of Ocean University of China,2009,39(S1):234(in Chinese).
刘优昌,毕彩丰,赵宇,等. 系列聚酰胺-胺破乳剂对O/W型模拟含油污水破乳性能的研究[J]. 中国海洋大学学报,2009,39(S1): 234.
15 Huang H P. Study on synthesis and performance in destabilizing emulsions of modified PAMAM dendrimer [D]. Chengdu:Southwest Petroleum University,2014(in Chinese).
黄华平. 改性树枝状聚酰胺-胺的合成及其在破乳中的应用[D]. 成都:西南石油大学,2014.
16 王素芳,姚光源,林蓓,等. 一种星状聚季铵盐高效反相破乳剂的制备方法:中国,200810115284.3[P].2009-02-04.
17 Liu L X,Hao S S,Wang X C,et al. Synthesis and properties of reverse demulsifier of polyquaternary ammonium[J]. Ind Water Was- terwater,2010(5):70 (in Chinese).
刘立新,郝松松,王学才,等. 聚季铵盐反相破乳剂的合成及破乳性能研究[J]. 工业用水与废水,2010(5):70.
18 Yu K P,Wang Z T,Wang Q Z,et al. High efficient hyperbranched demulsifier on polymer flooding by electrical neutralization [J]. J Shengli College China University of Petroleum,2014,28(2):21(in Chinese).
于克鹏,王宗廷,王乾泽,等. 聚合物驱采出液超支化电中和型高效破乳剂研究[J]. 中国石油大学胜利学院学报,2014, 28(2): 21.
19 Zhang P, Zhang L, Zhang L, et al. Dilational properties of novel amphiphilic dendrimers at water-air and water-heptane interfaces [J]. J Phys Chem B,2012,116(42):12760.
20 Zhang P, Wang H, Liu X, et al. The dynamic interfacial adsorption and demulsification behaviors of novel amphiphilic dendrimers[J]. Colloid Surf A,2014,443:473.
21 Silva I, Borges B, Blanco R, et al. Breaking of water-in-crude oil emulsions. 5. Effect of acid-alkaline additives on the performance of chemical demulsifier[J]. Energy Fuel,2014, 28(6):3587.
22 Zhou J Z,Zhang W, Tan G R,et al. Synthesis and performance of a star-shape PAMAM polyether demulsifier[J]. Specialty Petrochem,2008,25(5):5(in Chinese).
周继柱,张巍,檀国荣,等. 聚酰胺胺星形聚醚原油破乳剂的合成与性能[J]. 精细石油化工,2008,25(5):5.
23 Zhang W, Dong G, Yang H, et al. Synthesis, surface and aggregation properties of a series of amphiphilic dendritic copolymers[J]. Colloid Surf A,2009,348(3):45 .
24 Wang X M,Chen D J,Wu Y S,et al. The synthesis and demulsification of modificated dendrimers W-PAMAMA[J]. Adv Fine Petrochem,2015,16(4):30(in Chinese).
王雪敏,陈大钧,吴永胜,等. 改性树状大分子W-PAMAM的合成及破乳性能研究 [J]. 精细石油化工进展,2015,16(4):30.
25 Cheng D L. Synthesis, characterization, and antiscalant application of PAMAM dendrimers [D]. Qingdao:China University of Petroleum,2009(in Chinese).
程冬玲. 树状大分子PAMAM的合成、表征和阻垢性能研究[D]. 青岛:中国石油大学, 2009.
26 Liu C, Gao C, Yan D. Synergistic supramolecular encapsulation of amphiphilic hyperbranched polymer to dyes[J]. Macromolecules, 2006,39(23):8102.
27 Zhang S Y,Ge T J,Li C Q,et al. Characterization and demulsification property of Octadecyl hyperbranched molecule[J]. Chem Res,2008,19(1):80(in Chinese).
张姝妍,葛腾杰,李翠勤,等. 十八烷基超支化分子的结构表征与破乳性能[J]. 化学研究,2008,19(1):80.
28 Liu L X,Cui L Y,Zhao X F,et al. The cationic modification of hyperbranched polyamidoamine (PAMAM) and its flocculanting pro- perties[J]. Sci Technol Chem Ind,2011,19(1):1(in Chinese).
刘立新,崔丽艳,赵晓非,等. 超支化聚酰胺胺(PAMAM)的阳离子改性及絮凝性能[J]. 化工科技,2011,19(1):1.
29 Hou Z F,Luo Z G,Shao S,et al. The synthesis of hyperbranched polyamide-amine and its effect of demulsification[J]. Gasfield Surf Eng,2013,32(10):27(in Chinese).
侯志峰,罗忠贵,邵森,等. 超支化聚酰胺-胺的合成及破乳效果[J]. 油气田地面工程,2013,32(10):27.
30 Wang J, Hu F, Li C, et al. Synthesis of dendritic polyether surfactants for demulsification[J]. Sep Purif Technol,2010,73(3):349.
31 Zheng X N,Ye Z B,Ye Z R, et al. Synthesis of oil-displacing agent with dendritic molecules and its evaluation[J]. Xinjiang Petroleum Geology,2009(5):637(in Chinese).
郑性能,叶仲斌,叶正荣,等. 树枝状分子驱油剂的合成和评价[J]. 新疆石油地质,2009(5):637.
32 Liu R,Pu W F, Peng H, et al. Preparation of hyper-branched association polyacrylamide and its oil displacement properties[J]. J Southwest Petroleum University,2015,37(2):145(in Chinese).
刘锐,蒲万芬,彭欢,等. 超支化缔合聚合物的制备及驱油性能[J]. 西南石油大学学报,2015,37(2):145.
33 Liang C, Liu Q, Xu Z. Synthesis of surface responsive composite particles by dehydration of water-in-oil emulsions[J]. ACS Appl Mater Interface,2015,7(37):20631.
34 Wang C L. Study on synthesis and performance of magnetic nano-material modified PAMAM dendrimer wastewater treatment reagent [D]. Qingdao:China University of Petroleum,2008(in Chinese).
王春磊. 磁性纳米材料改性树状大分子水处理剂的合成及性能研究[D]. 青岛:中国石油大学,2008.

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