聚偏氟乙烯复合中空纤维膜的制备与表征
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摘要
本论文研究了在聚偏氟乙烯(PVDF)铸膜液中添加无机纳米三氧化二铝粒子和二氧化钛粒子,采用干-湿法纺丝制备γ-Al_2O_3/PVDF和TiO_2/PVDF复合中空纤维膜的方法。并且对制备的复合膜的水通量、分离性能、微观结构、机械性能及化学稳定性进行了表征。全文的主要内容包括:
(1) 采用干—湿法纺丝工艺制备了复合中空纤维膜,采用流延法制备了复合平板膜。研究了不同无机粒子,添加剂用量对中空纤维复合膜的微观结构、孔性能的影响。结果表明不同的无机粒子对所制膜的微观结构影响较大,其中,TiO_2/PVDF复合中空纤维膜微观结构较好,成孔均匀。在相同条件下,TiO_2/PVDF复合中空纤维膜的孔径更小,孔性能更好。
(2) 采用泡压法对所制的中空纤维复合膜的最大孔径进行了表征,γ-Al_2O_3/PVDF复合膜的最大孔径为0.25μm,TiO_2/PVDF复合中空纤维膜的最大孔径为0.24μm,而相同条件下,未添加无机粒子的PVDF中空纤维膜的最大孔径为0.37μm。说明添加了无机粒子对膜的孔性能有所改善。对牛血清白蛋白的分离效率分别达到了68.70%和85.24%。
(3) 对不同样品膜的机械性能、化学性能和水通量分别进行了测定,结果表明,复合膜的机械性能、耐酸碱性能和耐有机溶剂性能与纯PVDF膜相比有了很大提高。水通量也有了较大提高。复合膜的亲水性能和化学稳定性也得到了改善。
The preparation of r -A12O3/PVDF and TiO2/PVDF composite hollow fiber membrane were investigated in this dissertation. The nano-particle r -Al2O3 and TiO2 was added into the spinning solution, then the membrane was made by the way of dry-wet spinning method. The water flux, rejection rate, porosity, micro-structure, mechanical performance and chemical performance were characterized. The contents of this dissertation are as follows:
(1) The r -A12O3/PVDF and TiO2/PVDF composite hollow fiber membrane were prepared by way of spinning method. The effection of different nano-particles and the amount of additive to the micro-structure and pore performance of composite hollow fiber membrane were discussed. It was found that the nano-particles has large effect on the membrane. And the microstructure of TiO2/PVDF composite membrane is better than the r -A12O3/PVDF composite membrane under the same condition.
(2) The pore size of composite membrane was investigeted by the method of bubble pressure. The max pore size of the three different hollow fiber membranes are as follows: PVDF membrane is 0.37 y m, r -Al2O3/PVDF composite membrane is 0.25 u m, TiO2/PVDF composite membrane is 0.24 u m. the rejection rate of the composite membranes to the bovine serum albumin reach to the 68.7% and 85.24%
(3) The mechnical performance, chemical performance and water flux of different membranes were measured. It is found that the mechnical and chemical performances of composite membrane are better than PVDF membrane, and the water flux of composite membrane also increases. It is showed that the hydrophilicity of composite membrane is improved.
(1) 采用干—湿法纺丝工艺制备了复合中空纤维膜,采用流延法制备了复合平板膜。研究了不同无机粒子,添加剂用量对中空纤维复合膜的微观结构、孔性能的影响。结果表明不同的无机粒子对所制膜的微观结构影响较大,其中,TiO_2/PVDF复合中空纤维膜微观结构较好,成孔均匀。在相同条件下,TiO_2/PVDF复合中空纤维膜的孔径更小,孔性能更好。
(2) 采用泡压法对所制的中空纤维复合膜的最大孔径进行了表征,γ-Al_2O_3/PVDF复合膜的最大孔径为0.25μm,TiO_2/PVDF复合中空纤维膜的最大孔径为0.24μm,而相同条件下,未添加无机粒子的PVDF中空纤维膜的最大孔径为0.37μm。说明添加了无机粒子对膜的孔性能有所改善。对牛血清白蛋白的分离效率分别达到了68.70%和85.24%。
(3) 对不同样品膜的机械性能、化学性能和水通量分别进行了测定,结果表明,复合膜的机械性能、耐酸碱性能和耐有机溶剂性能与纯PVDF膜相比有了很大提高。水通量也有了较大提高。复合膜的亲水性能和化学稳定性也得到了改善。
The preparation of r -A12O3/PVDF and TiO2/PVDF composite hollow fiber membrane were investigated in this dissertation. The nano-particle r -Al2O3 and TiO2 was added into the spinning solution, then the membrane was made by the way of dry-wet spinning method. The water flux, rejection rate, porosity, micro-structure, mechanical performance and chemical performance were characterized. The contents of this dissertation are as follows:
(1) The r -A12O3/PVDF and TiO2/PVDF composite hollow fiber membrane were prepared by way of spinning method. The effection of different nano-particles and the amount of additive to the micro-structure and pore performance of composite hollow fiber membrane were discussed. It was found that the nano-particles has large effect on the membrane. And the microstructure of TiO2/PVDF composite membrane is better than the r -A12O3/PVDF composite membrane under the same condition.
(2) The pore size of composite membrane was investigeted by the method of bubble pressure. The max pore size of the three different hollow fiber membranes are as follows: PVDF membrane is 0.37 y m, r -Al2O3/PVDF composite membrane is 0.25 u m, TiO2/PVDF composite membrane is 0.24 u m. the rejection rate of the composite membranes to the bovine serum albumin reach to the 68.7% and 85.24%
(3) The mechnical performance, chemical performance and water flux of different membranes were measured. It is found that the mechnical and chemical performances of composite membrane are better than PVDF membrane, and the water flux of composite membrane also increases. It is showed that the hydrophilicity of composite membrane is improved.
引文
1.郑领英,袁权.展望21世纪的膜分离技术.水处理技术,1995,21(4):125~131
2.王学松.膜分离技术及应用.北京:科学出版社,1994,33
3.周明,孟广耀,彭定坤等.无机陶瓷膜.膜科学与技术,1992,12(2):1~9
4.于德才,洪广言.无机分离膜的进展.膜科学与技术,1990,10(4):1~6
5.张有谟.分离膜的应用现状与前景.现代化工,1995,5:29~33
6.郑领英,王学松.膜技术.北京:化学工业出版社,2000
7.薛怀德.超滤膜法简要介绍(一).膜科学与技术,1991,11(1):171-79
8.薛怀德.超滤膜法简要介绍(二).膜科学与技术,1992,12(1):64-68
9.时钧,汪家鼎,余国琮,陈敏恒.“化学工程手册”(下卷).北京:化学工业出版社,1996
10.邵刚.膜法水处理技术.北京:冶金工业出版社,2000
11.高以烜,叶凌碧.膜分离技术基础.北京:科学出版社,1989,03
12.Marcel Mulder.Basic Principles of Membrane Technology.Second edRion.北京:清华大学出版社,1999,8
13.朱长乐,刘茉娥.膜科学技术.杭州:浙江大学出版社,1992,54
14.陈颖.聚烯烃中空纤维微孔膜的研究与发展.膜科学与技术,2001(2):21~23
15.沈力强,徐志康,徐又一.聚酰亚胺中空纤维膜研究进展.功能材料,2000
16. Ying Dai,Xigao Jian, Shouhai Zhang et al. Thermostable ultration and nanofiltration membranes from sulfonated poly(phthalazinone ether sulfone ketone). Journal of Membrane science,2001,188:195-203
17.张有谟.分离膜的应用现状及前景.现代化工,1995(5):29~33
18.奚文清,李洁钊.膜法处理乳化油废水的初探.水处理技术,1994,20(3):129-132
19.张玉忠,李然,李泓.中空纤维膜处理油田含油污水.环境化学,1997,16(3):241-246
20.蒋维钧.新型传质分离技术.北京:化学工业出版社,1992,10
21.吕晓龙,李新民,石君等.PVDF中空纤维微孔膜的应用及清洗方法.膜科学与技术,2000(5):5~9
22.陆晓峰,汪庚华,梁国明.聚偏氟乙烯超滤膜的辐照接枝改性研究.膜科学与技术,1998,18(6):54-57
23.薛碚华,金佩君.聚偏氟乙烯取向薄膜的结晶形态.功能高分子学报,1989,2(2):143-148
24.陈晔,杨德才.淬火温度对聚偏氟乙烯形态结构的影响.高分子学报,
1995,(5):519-522
25.刘学恕,姚耀广.低温等离子体对聚偏氟乙烯表面处理的研究.广州化学,1992,(3):28-34
26. Modification of polyvinylidene fluoride membrane and method of filtering. U.S. Patent 5,531,900
27. Process of making a porous membrae material from polyvinylidene fluride, and products. U.S. Patent 4,203,848
28. Method of making polyvinylidene fluoride membrane. U.S. Patent 5,489,406
29. Porous polyvinylidene fluride resin film and process for producting the same. U.S. Patent 6,299,773
30. Jae-Hyun So, Seung-Men Yang, hongyoup Kim, et al Microstructure and rheologicla bhhaviour of electrosterically stabilized silica particle suspensions. Physicochemical and Engineering Aspects,2001,190:89-98
31. Hyun Hang Yong, Hyun Chae Park, Yong Soo Kang, et al. Zeolite-filled polyimide membrane containing 2,4,6-triaminopyrimidine. Journal of Membrane Science, 2001, 188:151-163
32. P. Aerts, E. Van Hoof, R. Leysen, I.F.J.Vankelecom, P.A.Jacobs. Polysulfone-"Aerosil composite membrane, Part 1. The influence of the addition of Aerosil on the formation process and membrane morphology. Journal of Menbrane Science, 2000,176:63-73
33. Murat G.Ser, Nurcan. Bac, Levent Yilmaz. Gas permeation characteristics of polymer-zeilite mixed matrix membranes Journal of Membrane Science 1994,91:77-86
34.孔瑛,吴庸烈,杨金荣等.膜蒸馏用聚偏氟乙烯微孔膜的结构控制,Ⅰ,铸膜液中溶胀剂对膜形态结构的影响.水处理技术,1992,18(1):11-16
35.孔瑛,吴庸烈,杨金荣等.膜蒸馏用聚偏氟乙烯微孔膜的结构控制.Ⅲ,制膜条件的选择和膜蒸馏性能.水处理技术,1992,18(3):167-172
36.孔瑛,吴庸烈,杨金荣等.用于膜蒸馏的疏水聚偏氟乙烯不对称微孔膜的制备及其形态结构的研究.膜科学与技术,1990,10(3):19-26
37.吴庸烈,刘卫宏,张华杰等.沉淀剂组成对聚偏氟乙烯微孔膜孔结构的影响.膜科学与技术,1989,9(3):1-7
38.孔瑛,吴庸烈,杨金荣等.氯化铝为添加剂制得的疏水聚偏氟乙烯不对称微孔膜的形态结构及其膜蒸馏性能.功能高分子学报,1992,5(4):336-341
39.吕晓龙,孙常宏,胡成松等.PVDF中空纤维膜的研制.纺织导报,1999,02
40.董声雄,洪俊明.亲水性PVDF超滤膜的制备研究.福州大学学报,1998,25(4):112
41.黄金钟,宫美乐.增强型PVDF微孔膜的研制.水处理技术,1997(2):19-22
42.王保国,刘茂林,蒋维钧.中空纤维PVDF微孔膜的研究.膜科学与技术,1995,15(1):46-50
43.张裕媛,张裕卿.用于含油废水处理的复合膜研制.中国给水排水,2000,16(4):58-60
44.李琳.膜技术基本原理.北京:清华大学出版社,1999
45.冉少锋,祝巍.泡压—滤速法研究聚丙烯微孔膜的孔径及其分布.高分子学报,1999,(1):118-122
46.任俊,卢寿慈.亲水性及疏水性颗粒在水中的分散行为研究.中国粉体技术,1999,5(2):65-69
47.任俊,卢寿慈.在水介质中分散剂对微细颗粒分散作用的影响.北京科技大学学报,1998,20(1):7-10
48.任俊,卢寿慈.固体颗粒在液相中的分散.北京科技大学学报,1998,20(1):1-6
49.王瑞刚,吴厚政,陈玉如等.陶瓷浆料稳定分散进展.陶瓷学报.1999(1)
50. T. F. Tadros. Steric stabilization and flocculation by polymer. Polymer J. 1991,23(5):683-696
51. R.H.Ottewill. Stability and instability in disperse systems. J.Coll. And Inter. Sci. 1977,58(2),Feb:357-373
52. D.H. Napper. Steric Stabilization. J. Coll. And Inter. Sci. 1977,58(2):390-407
2.王学松.膜分离技术及应用.北京:科学出版社,1994,33
3.周明,孟广耀,彭定坤等.无机陶瓷膜.膜科学与技术,1992,12(2):1~9
4.于德才,洪广言.无机分离膜的进展.膜科学与技术,1990,10(4):1~6
5.张有谟.分离膜的应用现状与前景.现代化工,1995,5:29~33
6.郑领英,王学松.膜技术.北京:化学工业出版社,2000
7.薛怀德.超滤膜法简要介绍(一).膜科学与技术,1991,11(1):171-79
8.薛怀德.超滤膜法简要介绍(二).膜科学与技术,1992,12(1):64-68
9.时钧,汪家鼎,余国琮,陈敏恒.“化学工程手册”(下卷).北京:化学工业出版社,1996
10.邵刚.膜法水处理技术.北京:冶金工业出版社,2000
11.高以烜,叶凌碧.膜分离技术基础.北京:科学出版社,1989,03
12.Marcel Mulder.Basic Principles of Membrane Technology.Second edRion.北京:清华大学出版社,1999,8
13.朱长乐,刘茉娥.膜科学技术.杭州:浙江大学出版社,1992,54
14.陈颖.聚烯烃中空纤维微孔膜的研究与发展.膜科学与技术,2001(2):21~23
15.沈力强,徐志康,徐又一.聚酰亚胺中空纤维膜研究进展.功能材料,2000
16. Ying Dai,Xigao Jian, Shouhai Zhang et al. Thermostable ultration and nanofiltration membranes from sulfonated poly(phthalazinone ether sulfone ketone). Journal of Membrane science,2001,188:195-203
17.张有谟.分离膜的应用现状及前景.现代化工,1995(5):29~33
18.奚文清,李洁钊.膜法处理乳化油废水的初探.水处理技术,1994,20(3):129-132
19.张玉忠,李然,李泓.中空纤维膜处理油田含油污水.环境化学,1997,16(3):241-246
20.蒋维钧.新型传质分离技术.北京:化学工业出版社,1992,10
21.吕晓龙,李新民,石君等.PVDF中空纤维微孔膜的应用及清洗方法.膜科学与技术,2000(5):5~9
22.陆晓峰,汪庚华,梁国明.聚偏氟乙烯超滤膜的辐照接枝改性研究.膜科学与技术,1998,18(6):54-57
23.薛碚华,金佩君.聚偏氟乙烯取向薄膜的结晶形态.功能高分子学报,1989,2(2):143-148
24.陈晔,杨德才.淬火温度对聚偏氟乙烯形态结构的影响.高分子学报,
1995,(5):519-522
25.刘学恕,姚耀广.低温等离子体对聚偏氟乙烯表面处理的研究.广州化学,1992,(3):28-34
26. Modification of polyvinylidene fluoride membrane and method of filtering. U.S. Patent 5,531,900
27. Process of making a porous membrae material from polyvinylidene fluride, and products. U.S. Patent 4,203,848
28. Method of making polyvinylidene fluoride membrane. U.S. Patent 5,489,406
29. Porous polyvinylidene fluride resin film and process for producting the same. U.S. Patent 6,299,773
30. Jae-Hyun So, Seung-Men Yang, hongyoup Kim, et al Microstructure and rheologicla bhhaviour of electrosterically stabilized silica particle suspensions. Physicochemical and Engineering Aspects,2001,190:89-98
31. Hyun Hang Yong, Hyun Chae Park, Yong Soo Kang, et al. Zeolite-filled polyimide membrane containing 2,4,6-triaminopyrimidine. Journal of Membrane Science, 2001, 188:151-163
32. P. Aerts, E. Van Hoof, R. Leysen, I.F.J.Vankelecom, P.A.Jacobs. Polysulfone-"Aerosil composite membrane, Part 1. The influence of the addition of Aerosil on the formation process and membrane morphology. Journal of Menbrane Science, 2000,176:63-73
33. Murat G.Ser, Nurcan. Bac, Levent Yilmaz. Gas permeation characteristics of polymer-zeilite mixed matrix membranes Journal of Membrane Science 1994,91:77-86
34.孔瑛,吴庸烈,杨金荣等.膜蒸馏用聚偏氟乙烯微孔膜的结构控制,Ⅰ,铸膜液中溶胀剂对膜形态结构的影响.水处理技术,1992,18(1):11-16
35.孔瑛,吴庸烈,杨金荣等.膜蒸馏用聚偏氟乙烯微孔膜的结构控制.Ⅲ,制膜条件的选择和膜蒸馏性能.水处理技术,1992,18(3):167-172
36.孔瑛,吴庸烈,杨金荣等.用于膜蒸馏的疏水聚偏氟乙烯不对称微孔膜的制备及其形态结构的研究.膜科学与技术,1990,10(3):19-26
37.吴庸烈,刘卫宏,张华杰等.沉淀剂组成对聚偏氟乙烯微孔膜孔结构的影响.膜科学与技术,1989,9(3):1-7
38.孔瑛,吴庸烈,杨金荣等.氯化铝为添加剂制得的疏水聚偏氟乙烯不对称微孔膜的形态结构及其膜蒸馏性能.功能高分子学报,1992,5(4):336-341
39.吕晓龙,孙常宏,胡成松等.PVDF中空纤维膜的研制.纺织导报,1999,02
40.董声雄,洪俊明.亲水性PVDF超滤膜的制备研究.福州大学学报,1998,25(4):112
41.黄金钟,宫美乐.增强型PVDF微孔膜的研制.水处理技术,1997(2):19-22
42.王保国,刘茂林,蒋维钧.中空纤维PVDF微孔膜的研究.膜科学与技术,1995,15(1):46-50
43.张裕媛,张裕卿.用于含油废水处理的复合膜研制.中国给水排水,2000,16(4):58-60
44.李琳.膜技术基本原理.北京:清华大学出版社,1999
45.冉少锋,祝巍.泡压—滤速法研究聚丙烯微孔膜的孔径及其分布.高分子学报,1999,(1):118-122
46.任俊,卢寿慈.亲水性及疏水性颗粒在水中的分散行为研究.中国粉体技术,1999,5(2):65-69
47.任俊,卢寿慈.在水介质中分散剂对微细颗粒分散作用的影响.北京科技大学学报,1998,20(1):7-10
48.任俊,卢寿慈.固体颗粒在液相中的分散.北京科技大学学报,1998,20(1):1-6
49.王瑞刚,吴厚政,陈玉如等.陶瓷浆料稳定分散进展.陶瓷学报.1999(1)
50. T. F. Tadros. Steric stabilization and flocculation by polymer. Polymer J. 1991,23(5):683-696
51. R.H.Ottewill. Stability and instability in disperse systems. J.Coll. And Inter. Sci. 1977,58(2),Feb:357-373
52. D.H. Napper. Steric Stabilization. J. Coll. And Inter. Sci. 1977,58(2):390-407