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EVA膜对甲苯/乙醇混合物的溶胀和渗透汽化特性 被引量:3

PERVAPORATION AND SWELL OF ETHYLENE/VINYL ACEATE COPOLYMER MEMBRANE FOR TOLUENE/ETHANOL MIXTURES
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摘要 利用基团贡献法估算了共聚比不同的乙烯 /醋酸乙烯共聚物 (EVA)、甲苯 /乙醇混合物的Hansen溶解度参数 ,以共聚物与混合物两者间的三维及二维溶解度参数分量差为判据 ,分析了二者之间相互作用关系及互溶状况 ,与醋酸乙烯质量分数为 2 8%和 14 %的EVA溶胀实验结果对比 ,估算值与实验结果较一致 .所研制的膜用于分离甲苯 /乙醇混合溶液 ,甲苯为优先透过组分 ,在甲苯的质量分数为 2 %~ 3 5 %之间 ,进料温度为 2 5℃的条件下 ,甲苯渗透通量范围为 5 5~ 90 0 g·m-2 ·h-1,而分离因子由 18降到 4 .0 . The Hansen solubility parameters of ethylene/vinyl aceate copolymer materials and toulene/ethanol mixtures were calculated through the group contribution method. The interaction properties and mutual solubility between polymer and mixtures were analysed,based on the difference of two- or three-dimensional component of solubility parameters. To compare the results of swelling experiment of EVA14 and EVA28, the estimated values were in agreement with experimental data. The membrane was prepared with EVA28 and used for separating toluenl/ethanol mixture, the results show that the membrane was preferential for permeation of toulene. As the mass fraction of toluene was 2%-35% at 25 ℃ in the feed, the toluene flux increased from 55 g·(m 2·h) -1 to 900 g·(m 2·h) -1 ,and the separation factor decreased from 18 to 4. The results also show that the selectivity and the flux are related to the temperture of the feed. The quasi-equilibrium criteria of pervaporation were compared with VLE of the toluene/ethanol mixture.
作者 张林 陈欢林 宋礼明 周志军 刘茉娥
机构地区 浙江大学材料与化工学院
出处 《化工学报》 EI CAS CSCD 北大核心 2001年第8期696-700,共5页 CIESC Journal
基金 国家自然科学基金重点资助项目 (No .2 9836160 )
关键词 渗透汽化 溶胀 甲苯 乙醇 溶解度参数 乙烯/醋酸乙烯共聚物 混合物 分离 EVA膜 pervaporation, swell, toluene/ethanol, solubility parameters,ethylene/vinyl aceate copolymer
分类号 TQ028.8 [化学工程]
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参考文献3

  • 1Hao J O,J Membr Sci,1997年,132卷,1期,97页
  • 2Jian K,J Membr Sci,1997年,135卷,1期,41页
  • 3Zhu C L,Desalination,1989年,71卷,1页

同被引文献27

  • 1何军,奉建芳,庞家忠,陆伟根,侯世祥.水飞蓟素纳米粒载体材料与制备方法的初步筛选[J].中南药学,2004,2(5):259-261. 被引量:3
  • 2丛玉凤,廖克俭,翟玉春.分子模拟在SBS改性沥青中的应用[J].化工学报,2005,56(5):769-773. 被引量:23
  • 3Wijmans J G, Baker R W. The solution-diffusion model: a review [J]. Journal of Membrane Science, 1995, 107(1): 11-21.
  • 4Liu K, Tong Z, Li Let al. Separation of organic compounds from water by pervaporation in the production of n-butyl acetate via esterification by reactive distillation [J]. Journal of Membrane Science, 2005, 256(1 ): 193-201.
  • 5Liu L, Chakma A, Feng X. A novel method of preparing ultrathin poly(ether block amide) membranes [J]. Journal of Membrane Science, 2004, 235(1): 43-52.
  • 6Mulder M H Y, Smolders C A. On the mechanism of separation of ethanol/water mixtures by pervaporation: Calculation of concentration profiles [J]. Journal of Membrane Science, 1984, 17(3): 289-307.
  • 7Enneking L, Heintz A, Lichtenthaler R N. Sorption equilibria of the ternary mixture benzene/ cyclohexen/ cyclohexane in polyurethane and PEBA membrane polymer [J]. Journal of Membrane Science, 1996, 115(2): 161-170.
  • 8Lindvig T, Michelsen M L, Kontogeorgis G M. A Flory-Huggins model based on the Hansen solubility parameters [J]. Fluid Phase Equilibria, 2002, 203(1-2): 247-260.
  • 9Hong S U. Prediction of polymer/solvent diffusion behavior using flee-volume theory [J]. Ind Eng Chem Res, 1995, 34(7): 2536-2544.
  • 10Heintz A, Stephan W A generalized solution-diffusion model of the pervaporation process through composite membranes. Part l. Prediction of mixture solubilities in the dense active layer using the UNIQUAC model [J]. Journal of Membrane Science, 1994, 89(1-2): 143-151.

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化工学报
2001年 第8期

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