Preparation and characterization of polyimide/polypropylene solvent resistant nanofiltration composite membrane via interfacial polymerization

doi:10.3969/j.issn.0438-1157.2012.08.042

Abstract

Abstract: A novel polyimide(PI)/polypropylene(PP)solvent resistant nanofiltration(SRNF)composite membrane was prepared by interfacial polymerization(IP)of metaphenylene diamine(MPD)with 1,2,4,5-benzene tetra acyl chloride(BTAC)on the surface of acrylamide grafted PP support.The effects of monomers concentration，ratio of imidizing solution were investigated.The chemical composition of barrier layer and morphology of the resulting membrane were characterized with Fourier transform infrared spectra(FTIR)and scanning electronic microscopy(SEM)，respectively.The rejection，permeation and solvent resistant performance of the resulting membranes were also determined.An orthogonal experiment showed that BTAC concentration was the first affecting factor.A non-defective fine PI selective layer was formed on the PP support，and the resulting membrane presented a negatively charged behavior.The optimized conditions were as follows：concentration of BTAC and MPD 2 g·L-1，8 g·L-1 respectively，and volume ratio among acetic anhydride，triethylamine and benzene in imidizing solution 1∶1∶10.Under an operating pressure of 0.5 MPa，the rejection rates of the resulting membrane to Na2SO4 and acid brilliant blue 6B were 93.8% and 96.9%，respectively.

Key words: polyimide, polypropylene, interfacial polymerization, composite membrane, solvent resistant nanofiltration

摘要： 以丙烯酰胺接枝的聚丙烯(PP)超滤膜为支撑层，间苯二胺(MPD)、均苯四甲酰氯(BTAC)分别为水相及有机相功能单体，通过界面聚合及其后续的酰亚胺化制备了聚酰亚胺(PI)/PP耐溶剂复合纳滤膜。讨论了水相浓度、有机相浓度及酰亚胺化溶液配方等条件对复合膜结构及其分离性能的影响。分别采用傅里叶红外光谱仪(FTIR)、扫描电子显微镜(SEM)表征分离层的化学组成及复合膜的形态结构，得到膜的分离、透过及其耐溶剂性能。结果表明，有机相浓度的影响最为显著，支撑膜表面形成了均匀致密的PI分离层，复合膜呈负电性，并具备优秀的耐溶剂性能。实验范围内，MPD、BTAC的浓度分别为8、2 g·L-1，酰亚胺化溶液乙酸酐∶三乙胺∶苯体积比为1∶1∶10时，所制备膜的分离性能较佳，对Na2SO4、酸性艳蓝6B的截留率分别达93.8%和96.9%。

关键词: 聚酰亚胺, 聚丙烯, 界面聚合, 复合膜, 耐溶剂纳滤

CLC Number:

TQ028.8

YANG Zhensheng，ZHANG Lei，ZHANG Guanghou，LI Chunli. Preparation and characterization of polyimide/polypropylene solvent resistant nanofiltration composite membrane via interfacial polymerization[J]. CIESC Journal, 2012, 63(8): 2635-2641.

杨振生，张磊，张广厚，李春利. 界面聚合法PI/PP耐溶剂复合纳滤膜的制备与表征[J]. 化工学报, 2012, 63(8): 2635-2641.

References 24

[1]	Vandezande P,Gevers L E M,Vankelecom Ivo F J. Solvent resistant nanofiltration: separating on a molecular level [J]. Chem. Soc. Rev.,2008,37: 365-405
[2]	Wei Wang(卫旺),Xiangli Fenjuan(相里粉娟),Jin Wanqin(金万勤),Xu Nanping(徐南平). Solvent resistant nanofiltration membranes(耐溶剂纳滤膜) [J]. Progress in chemistry(化学进展),2007,19(10): 1592-1597
[3]	Wu Fadong(吴法东),Zhou Yong(周勇),Gao Congjie(高从堦). Progress of solvent-resistant polymeric nanofiltration membrane (耐溶剂高分子纳滤膜研究进展) [J]. Technology in water treatment (水处理技术),2010,36(12): 1-5
[4]	Othman R,Mohammad A W,Ismail M,Salimon J. Application of polymeric solvent resistant nanofiltration membranes for biodiesel production [J]. J. Membrane Sci.,2010,348: 287-297
[5]	Soroko I,Lopes M P,Livingston A. The effect of membrane formation parameters on performance of polyimide membranes for organic solvent nanofiltration (OSN): Part A [J]. J. Membrane Sci.,2011,381: 163-171
[6]	Vanherck K,Cano Odena A,Koeckelberghs G,Dedroog T,Vankelecom Ivo. A simplified diamine crosslinking method for PI nanofiltration membranes [J]. J. Membrane Sci.,2010,353: 135-143
[7]	Li Wei(李韦华),Zhang Hui(张慧),Zhang Jinli(张金利),Ding Tao(丁涛),Wang Lin(王霖). Polyimide membrane synthesis and its nanofiltration separation of organic solvent system(聚酰亚胺膜的制备及对有机物系的纳滤分离) [J]. Chem. Ind. and Eng. Progress(化工进展),2007,27(7): 1012-1017
[8]	Zhou Yong(周勇),YU Sanchuan(俞三传),Gao Congjie(高从堦). Reverse osmosis composite membrane (I) Chemical structure and performance (反渗透复合膜（Ⅰ）结构与性能) [J]. Journal of Chemical Industry and Engineering(China)(化工学报),2006,57: 1370-1373
[9]	Qiu Shi(邱实),Wu Liguang(吴礼光),Zhang Lin(张林),Chen Huanlin(陈欢林),Gao Congjie(高从堦). Effect of process conditions of interfacial polymerization on performance of reverse osmosis composite membrane (界面聚合工艺条件对反渗透复合膜性能的影响)[J]. Journal of Chemical Industry and Engineering(China)(化工学报),2008,59: 2027-2034
[10]	Freger V. Nanoscale heterogeneity of polyamide membranes formed by interfacial polymerization [J]. Langmuir,2003,19: 4791-4797
[11]	Whu J A,Baltzis B C,Sirkar K K. Nanofiltration studies of larger organic microsolutes in methanol solutions [J]. J. Membrane Sci.,2000,170:159-172
[12]	Liu Yingling,Yu Chunghao,Lai Juin Yih. Poly(tetrafluoroethylene)/polyamide thin-film composite membranes via interfacial polymerization for pervaporation dehydration on an isopropanol aqueous solution [J]. J. Membrane Sci.,2008,315:106-115
[13]	Yu Chunghao,Kusumawardhana I,Lai Juinyih,Liu Yingling. PTFE/polyamide thin-film composite membranes using PTFE films modified with ethylene diamine polymer and interfacial polymerization: Preparation and pervaporation application [J]. J. Colloid & Interf. Sci.,2009,336: 260-267
[14]	Kim H I,Kim S S. Plasma treatment of polypropylene and polysulfone supports for thin film composite reverse osmosis membrane [J]. J. Membrane Sci.,2006,286:193-201
[15]	Korikov A P,Kosaraju P B,Sirkar K K. Interfacially polymerized hydrophilic microporous thin film composite membranes on porous polypropylene hollow fibers and flat films [J]. J. Membrane Sci.,2006,279:588-600
[16]	Kosaraju P,Sirkar K K. Interfacially polymerized thin film composite membranes on microporous polypropylene supports for solvent-resistant nanofiltration [J]. J. Membrane Sci.,2008,321:155-161
[17]	Roy S,Ntim S A,Mitra S,Sirkar K K. Facile fabrication of superior nanofiltration membranes from interfacially polymerized CNT-polymer composites [J]. J. Membrane Sci.,2011,375:81-87
[18]	Ba Chaoyi,Economy J. Preparation of PMDA/ODA polyimide membrane for use as substrate in a thermally stable composite reverse osmosis membrane [J]. J. Membrane Sci.,2010,363:140-148
[19]	Dung Thi T,Shinsuke M,Masaaki S. Characteristics of polyimide-based composite membranes fabricated by low-temperature plasma polymerization [J]. Thin Solid Films,2008,516(13): 4384-4390
[20]	Kim E S,Kim Y J,Yu Qingsong,Deng Baolin. Preparation and characterization of polyamide thin-film composite (TFC) membranes on plasma-modified polyvinylidene fluoride (PVDF) [J]. J. Membrane Sci.,2009,344: 71-81
[21]	Chern Y T,Chen L W. Interfacial polyfunctional condensation: Effect of the reaction conditions [J]. J. Appl. Polym. Sci.,1991,42: 2543-2550
[22]	Garg D H,Lenk W,Berwald S,Lunkwitz K,Simon F,Eichhorn K.-J.. Hydrophilization of micropoprous polypropylene celgard membranes by the chemical modification technique [J]. J. Appl. Polym. Sci.,1996,60: 2087-2104
[23]	Volkov A V,Stamatialis D F,Khotimsky V S,Volkov V V,Wessling M. Poly[1-(trimethylsilyl)-1-propyne] as a solvent resistance nanofiltration membrane material [J]. J. Membrane Sci.,2006,281:351-357
[24]	Schaep J,Bruggen B V,Vandecasteele C,Wilms D. Influence of ion size and charge in nanofiltration. Sep. &Purif. Tech..,1998,14:155-162