沸石分子筛膜苛刻环境有机物脱水的研究进展
作者:王金渠 ,杨建华,陈赞,殷德宏
单位: 大连理工大学 精细化工国家重点实验室 吸附与无机膜研究所
关键词: 渗透汽化;乙酸脱水;有机膜;沸石膜;杂化膜
DOI号:
分类号: TQ028.8
出版年,卷(期):页码: 2011,31(3):118-126

摘要:
苛刻环境酸性条件下有机物的脱水在工业上有重大需求。尽管NaA沸石分子筛膜渗透蒸发在中性温和条件下乙醇等有机物脱水已经实现了工业化,但沸石分子筛膜有机酸的脱水或强酸性条件下(PH<3)的有机物的脱水在国际上刚刚起步,面临的关键技术问题是沸分子筛膜的耐酸性和膜的通量极低。本文对国际上酸性条件下有机物脱水沸石膜的研究现状进行了简要的概述和分析,介绍了功能化修补法高性能MOR沸石膜的研制等,我们在这领域所做的各种尝试和取得的成果,指出沸石膜微结构的调控是高性能乙酸脱水分离膜制备的关键,对未来发展予以展望。
Dehydration of organics in harsh conditions is highly demanded in industrials.  Although the pervaporation dehydration of bio-ethanol using NaA zeolite membrane has been industrialized, the dehydration of organics in strong acidic conditions is only at the early-stage in international membrane community, facing key issues being the poor acid resistance and flow flux of the membrane. In the present review the international research advances in development of zeolite membranes for the dehydration of organic mixtures in acidic conditions were summarized. Especially our attempts and achievements in developments of high performance MOR and ZSM-5 zeolite membranes by novel approaches of functional defects repair and micro-structural optimization respectively for pervpaoration dehydration of acetic acid were shown. The future outlook of zeolite membrane for liquid molecular mixtures is also given

基金项目:
中央高校基本科研业务费专项资金资助 (DUT10ZD207)。

作者简介:
王金渠(1946-),男,教授,江苏省南通市人,博士生导师,从事吸附与无机膜研究

参考文献:
[1]  陈欢林.新型分离技术[M].北京:化学工业出版社.2005.75.
[2]  唐勇,沈本贤,张庆芳等.热敏性物质精馏系统的模拟优化[J].现代化工,2008,28:141-143.
[3]  徐南平,等.我国膜领域的重大需求与关键问题[J],中国有色金属学报,2004,14:327-341.
[4]  姜忠义等,水溶液中挥发性有机化合物渗透蒸发分离技术[J],现代化工,2000,20:23-26.
[5]  Suzuki.H. Stripline filter apparatus and method of making the same [P].US,USP:460 9892.1987
[6]  罗彦,徐南平等.,NaA型分子筛膜合成及应用进展[J],化工进展,2004,23:701-705
[7]  Mori gamiY , KondoM, Abe J , et a.l The firs t large-scale pervaporation plant using tubular-type moule with zeolite NaA membrane[J]. Separation and Purificat Technology, 2001, 25: 251- 260 .
[8]  Changfeng Zeng, Lixiong Zhang,Xinhua Cheng, Huanting Wang,,Nanping Xu, Preparation and gas permeation of nano-sized zeolite NaA-filled carbon membranes Sep Purif Technol, 2000,18:  141-150
[9]  Xiaochun Xu, Weishen Yang, Jie Liu, Liwu Lin, Synthesis and perfection evaluation of NaA zeolite membrane Sep Purif Technol, 2001,25 : 475-485.
[10]  Qinqin Ge , Zhengbao Wang, Yushan Yan High-Performance Zeolite NaA Membranes on
Polymer-Zeolite Composite Hollow Fiber Supports J. Am. Chem. Soc. 2009, 131:17056–17057
[11]  Yin, X. J.; Zhu, G. S.; Yang, W. S.; Li, Y. S.; Zhu, G. Q.;  Stainless-steel-net-supported zeolite     NaA membrane with high permeance and high permselectivity for oxygen over nitrogen.
Advanced Materials 2005, 17:16-20  
[12]  Scherzer J.The preparation and Characterization of Aluminum Deficient Zeolites,”Catalytic
 Materials” ACS Symposium Series.1984,248:157-200
[13]  S.-L. Wee, C.-T. Tye, S. Bhatia, Membrane separation process--Pervaporation through zeolite
membrane, Sep Purif Technol, 2008,3 :500-516.
[14]  M.I. M. Asaeda, T. Waki, Pervaporation of aqueous organic acid solutions by porous ceramic
membranes, J. Chem. Eng. Jpn., 2005,38 :336.
[15]  R. Astala, Scott M. Auerbach.DensityFunctional Theory Study of Silica Zeolite Structures:
 Stabilities and Mechanical Properties of SOD, LTA, CHA, MOR, and MFI[J]. J. Phys. Chem.
 B, 2004, 108 (26), 9208–9215
[16]  Han Zhoua,b, Yanshuo Li a, Guangqi Zhua,b, Jie Liua,Weishen Yanga, Microwave-assisted
  hydrothermal synthesis of a&b-oriented zeolite T membranes and their pervaporation properties
Separation and Purification Technology2009,65:164–172.
[17]  K. Tanaka, R. Yoshikawa, C. Ying, H. Kita, K.-i. Okamoto, Application of zeolite membranes
to esterification reactions, Catal Today, 2001,67:121-125.
[18]  张飞,胡娜,周荣飞 等,T型分子筛膜的制备及其在酯化反应中的应用,第四届中国膜
科学与技术报告会论文集,北京,2010.9 537-540
[19]  G. Li, E. Kikuchi, M. Matsukata, Separation of water-acetic acid mixtures by pervaporation
using a thin mordenite membrane, Sep Purif Technol, 2003,32: 199-206.
[20]  Xiansen Li a, Hidetoshi Kitaa, Hua Zhua, Zhenjia Zhangb, Kazuhiro Tanaka,Synthesis of long-
 term acid-stable zeolite membranes and their potential application to esterification reactions,
Journal of Membrane Science 2009,339 :224–232
[21]  Z. Chen, J. Yang, D. Yin, Y. Li, S. Wu, J. Lu, J. Wang, Fabrication of poly(1-vinylimidazole)- mordenite grafting membrane with high pervaporation performance for the dehydration of acetic acid, Journal of Membrane Science, 2010,349 :175-182.
[22]  G. Li, E. Kikuchi, M. Matsukata, A study on the pervaporation of water-acetic acid mixtures
 through ZSM-5 zeolite membranes, Journal of Membrane Science, 2003,218:185-194.
[23]  T. Sano, S. Ejiri, K. Yamada, Y. Kawakami, Separation of acetic acid-water mixtures by
  pervaporation through silicalite membrane, Journal of Membrane Science, 1997,123:225-233.
[24]  J. Caro, Albrecht, M. Noack, Why is it so extremely difficult to prepare shape-selective Al-rich
 zeolite membranes like LTA and FAU for gas separation, Sep Purif Technol, 2009,66: 143-147.
[25]  Z. Chen, D. Yin, Y. Li, J. Yang, J. Lu, Y.Z.J. Wang, Functional defect-patching of a zeolite
     membrane for the dehydration of acetic acid by pervaporation, Journal of Membrane Science,
     In Press,
[26]  Young M L,Boo K O.Pervaporation of water-acetic acid mixturethrough poly(4-
vinylpyridine-co-acrylonitrile)membrane[J].Journalof Membrane Science,1993,85:13-20.
[27]  Boo-Keun Oh,Wun Jae Wang,Young Moo Lee.Pervaporation ofpyridine-water mixture
 through poly(acrylonitrile-<I>co</I>-4-styrenesulfonic acid)membrane[J].Journal of Applied
 Polymer Science,1996,59:227-233.
[28]  Cao X Z,Ping Z H.Pervaporation performance of thepoly(1-vinylimidazole)-grafted ceramic
 composite membrane[J].Acta Chim.Sinica,2008,66:803-809.
[29]  Jin Seok Lee, Yun-Jo Lee, Eunju Lee Tae, et al. Synthesis of Zeolite As Ordered Multicrystal
 Arrays. science 301,818(2003)
[30]  Juergen Caro a, Manfred Noack. Zeolite membranes – Recent developments and progress[J].
Microporous and Mesoporous Materials. 2008.115:215–233
[31]  Wenhui Yuan,Y. S. lin, and Weishen Yang. Molecular Sieving MFI-Type Zeolite Membranes for
Pervaporation Separation of Xylene Isomers. J. Am. Chem. Soc., 2004, 126 (15), 4776–4777

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