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化学进展 2013

支撑型离子液体膜的制备、表征及稳定性评价

DOI: 10.7536/PC130201, PP. 1795-1804

刘一凡,马玉玲,徐琴琴,银建中

Keywords: 离子液体,支撑型液膜,二氧化碳捕捉,制备工艺,稳定性

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Abstract:

支撑型离子液体膜是将离子液体负载于基膜孔道内形成的复合型液体膜。它同时具备了离子液体优良的溶剂特性以及膜分离高效率的优势,加之分离过程简单、经济性好,成为研究CO2捕捉的热点课题。将这种膜分离技术用于天然气和烟道气脱硫脱碳,关键取决于膜的稳定性和质量。优质基膜、功能化离子液体以及科学的制备方法是保证支撑型离子液体膜性能的重要因素。首先,本文总结了已发展的各种制备支撑型离子液体膜的方法、主要表征手段,分析比较了其优缺点。其次,对于影响其稳定性和使用寿命的主要因素进行了分析评价。在此基础上,指出了控制膜质量需要重视的关键科学问题和今后应该重点发展的研究方向,旨在推动该技术的应用基础研究和工业化开发。

References

[1]	王志(Wang Z), 吕强(Lv Q), 李保安(Li B A), 王世昌(Wang S C). 高分子材料科学与工程(Polymer Materials Science & Engineering), 2000, 16(6): 5—6
[2]	Bloch R, Finkelstein A, Kedem O, Vofsi D. I&EC Process Design and Development, 1967, 6: 231—237
[3]	Ward R W J, Robb W L. Science, 1967, 156: 1481—1483
[4]	丁少杰(Ding S J), 郭亚红(Guo Y H), 滕一万(Teng Y W), 金凯洪(Jin K H), 樊文玲(Fan W L), 李磊(Li L), 吴有庭(Wu Y T). 膜科学与技术(Membrane Science and Technology), 2010, 30(6): 101—105
[5]	Scovazzo P, Visser A E, Davis J H, Rogers R D, Koval C A, Dubois D L, Noble R D. Supported Ionic Liquid Membranes and Facilitated Ionic Liquid Membranes. (Eds. Robin D R, Kenneth R S). Washington: ACS Publications, 2002. 69—89
[6]	Scovazzo P, Kieft J, Finan D A, Koval C, Dubois D, Noble R. J. Membrane Sci., 2004, 238: 57—63
[7]	Hanioka S, Maruyama T, Sotani T, Teramoto M, Matsuyama H, Nakashima K, Hanaki M, Kubota F, Goto M. J. Membrane Sci., 2008, 314: 1—4
[8]	Scovazzo P. J. Membrane Sci., 2010, 355: 7—17
[9]	Luis P, Neves L A, Afonso C, Coelhoso I M, Crespo J G, Garea A, Irabien A. Desalination, 2009, 245: 485—493
[10]	Yamanouchi N, Duan S, Ito A. Transactions Materials Research Society of Japan, 2004, 29: 3299—3302
[11]	Bara J E, Gabriel C J, Carlisle T K, Camper D E, Finotello A, Gin D L, Noble R D. Chem. Eng. J., 2009, 147: 43—50
[12]	Zhao W, He G H, Zhang L L, Ju J, Dou H, Nie F, Li C N, Liu H J. J. Membrane Sci., 2010, 350: 279—285
[13]	Ilconich J, Myers C, Pennline H, Luebke D. J. Membrane Sci., 2007, 298: 41—47
[14]	Branco L I S C, Crespo J A O G, Afonso C A. Angewandte Chemie, 2002, 114: 2895—2897
[15]	Fortunato R, Afonso C A M, Reis M, Crespo J G. J. Membrane Sci., 2004, 242: 197—209
[16]	沈江南(Sheng J N), 阮慧敏(Ruan H M), 吴东柱(Wu D Z), 章杰(Zhang J). 化工进展(Chemical Industry and Engineering Progress), 2009, 28(12): 2092—2098
[17]	姚茹(Yao R). 浙江大学硕士论文(Master Dissertation of Zhejiang University), 2011
[18]	Kim D, Baek I, Hong S, Lee H. J. Membrane Sci., 2011, 372: 346—354
[19]	马玉玲(Ma Y L), 徐琴琴(Xu Q Q), 徐刚(Xu G), 银建中(Yin J Z). 当代化工(Contemporary Chemical Industry), 2012, 41(7): 720—724
[20]	Bara J E, Hatakeyama E S, Gin D L, Noble R D. Polym. Advan. Technol., 2008, 19: 1415—1420
[21]	Tomé L C, Mecerreyes D, Freire C S R, Rebelo L P N, Marrucho I M. J. Membrane Sci., 2013, 428: 260—266
[22]	张正敏(Zhang Z M), 吴林波(Wu L B), 朱世平(Zhu S P), 李伯耿(Li B G). 科技通报(Bulletin of Science and Technology), 2009, 25(3): 305—310
[23]	Voss B A, Bara J E, Gin D L, Noble R D. Chem. Mater., 2009, 21: 3027—3029
[24]	Vangeli O C, Romanos G E, Beltsios K G, Fokas D, Athanasekou C P, Kanellopoulos N K. J. Membrane Sci., 2010, 365: 366—377
[25]	Krull F F, Hechinger M, Kloeckner W, Verhuelsdonk M, Buchbender F, Giese H, Melin T. Colloids and Surfaces A, 2009, 345: 182—190
[26]	Krull F F, Medved M, Melin T. Chem. Eng. Sci., 2007, 62: 5579—5585
[27]	Hernandez-Fernandez F J, de Los Rios A P, Tomas-Alonso F, Gomez D, Villora G. J. Membrane Sci., 2008, 314: 238—246
[28]	韩超(Han C). 北京化工大学硕士论文(Master Dissertation of Beijing University of Chemical Technology), 2010
[29]	Blanchard L A, Hancu D, Beckman E J, Brennecke J F. Nature, 1999, 399: 28—29
[30]	王伟彬(Wang W B), 银建中(Yin J Z), 孙丽华(Sun L H), 冯恩民(Feng E M). 物理化学学报(Acta Physico-Chimica Sinica), 2009, 25(11): 2291—2295
[31]	Kreiter R, Overbeek J P, Correia L A, Vente J F. J. Membrane Sci., 2011, 370: 175—178
[32]	袁权(Yuan Q), 郑领英(Zhen L Y). 水处理技术(Technology of Water Treatment), 1995, 21(3): 125—131
[33]	王志(Wang Z), 袁芳(Yuan F), 王明(Wang M), 王纪孝(Wang J X), 王世昌(Wang S C). 膜科学与技术(Membrane Science and Technology), 2011, 31(3): 11—17
[34]	Li N N. US 3410794, 1968
[35]	顾忠茂(Gu Z M). 膜科学与技术(Membrane Science and Technology), 2003, 23(4): 214—223
[36]	Gan Q, Rooney D, Xue M L, Thompson G, Zou Y R. J. Membrane Sci., 2006, 280: 948—956
[37]	Jiang Y Y, Zhou Z, Jiao Z, Li L, Wu Y T, Zhang Z B. J. Phys. Chem. B, 2007, 111: 5058—5061
[38]	Baltus R E, Counce R M, Culbertson B H, Luo H M, Depaoli D W, Dai S, Duckworth D C. Sep. Sci. Technol., 2005, 40: 525—541
[39]	段永超(Duan Y C), 伍艳辉(Wu Y H), 于世昆(Yu S K), 李佟茗(Li T M). 化学进展(Progress in Chemistry), 2012, 24(7): 1405—1412
[40]	Hernández-Fernández F J, de Los Ríos A P, Tomás-Alonso F, Gómez D, Rubio M, Víllora G. Chemical Engineering and Processing: Process Intensification, 2007, 46: 818—824
[41]	Fortunato R, Afonso C A M, Benavente J, Rodriguez-Castellón E, Crespo J G. J. Membrane Sci., 2005, 256: 216—223
[42]	Ríos A P D L, Hernández-Fernández F J, Tomás-Alonso F, Palacios J M, Gómez D, Rubio M, Víllora G. J. Membrane Sci., 2007, 300: 88—94
[43]	De Losrios A P, Hernandez-Fernandez F J, Tomas-Alonso F, Palacios J M, Villora G. Desalination, 2009, 245: 776—782
[44]	Hernandez-Fernandez F J, de Los Rios A P, Tomas-Alonso F, Palacios J M, Villora G. J. Membrane Sci., 2009, 341: 172—177
[45]	Iarikov D D, Hacarlioglu P, Oyama S T. Chem. Eng. J., 2011, 166: 401—406
[46]	银建中(Yin J Z), 马玉玲(Ma Y L), 徐刚(Xu G), 徐琴琴(Xu Q Q), 喻文(Yu W). CN 102430345A, 2012
[47]	Hu X, Tang J, Blasig A, Shen Y, Radosz M. J. Membrane Sci., 2006, 281: 130—138
[48]	Neouze M A, Le Bideau J, Gaveau P, Bellayer S, Vioux A. Chem. Mater., 2006, 18: 3931—3936
[49]	Baltus R E, Culbertson B H, Dai S, Luo H, Depaoli D W. J. Phys. Chem. B, 2004, 108: 721—727
[50]	吴锋(Wu F), 王保国(Wang B G). 膜科学与技术(Membrane Science and Technology), 2008, 28(5): 68—70
[51]	Lozano L J, Godinez C, de Los Rios A P, Hernandez-Fernandez F J, Sanchez-Segado S, Alguacil F J. J. Membrane Sci., 2011, 376: 1—14

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