PSf/PPESK共混超滤膜制备及性能研究
作者:于兰哲1, 唐橙橙1,贠延滨1,王丽华2
单位: 1.北京林业大学 环境科学与工程学院;2中国科学院化学研究所
关键词: 超滤膜; 共混; 聚砜; 截留率; 纯水通量
出版年,卷(期):页码: 2011,31(2):89-94

摘要:
将聚砜(PSf)和聚醚砜酮(PPESK)按比例共混,采用L-S相转化法制备超滤膜,考察共混比、固含量、添加剂等对膜水通量和截留率的影响。实验结果表明:当聚合物的固含量12%, PSf/PPESK共混比7/3,NMP作溶剂,PEG-4000作添加剂,凝胶浴温度50 ℃,挥发时间10 s,所制得的PSf/PPESK共混膜性能较好,其水通量为1.930 L/(m2h)m3/(m2•h•0.05Mpa)(本单位换成标准单位L/(m2h)),对牛血清蛋白的截留率为58.2%。
:The blend ultrafiltration membrane was made using polysulfone (PSF) and poly(phthalazinone ether sulfone ketone) (PPESK) as membrane material by liquid-solid phase inversion method. The effects of blend ratio, polymer concentration and additive concentration upon the fluxes and BSA retention were investigated. The experimental results showed that the optimal preparation parameters were the polymer concentration 12%, blending ratio (m(PSF)/m(PPESK)) 7/3, PEG-4000 as additive content, the coagulation bath temperature 50℃ and evaporation time 10s. The flux of PSf/PPESK membrane was 1930 L/ (m2h) and 58.2% rejection to BSA.
This thesis researched ultrafiltration membrane prepared by using L-S phase inversion method with mixed PSf and PPESK materials. On the basis of the blend method, the effects of blend ratio, polymer concentration, additive concentration etc. were investigated by the flux of pure water and rejection of BSA. The optimized conditions were as follow, the blending ratio of PSf/PPESK: 7/3, the concentration of the blend polymer: 12%, solvent: NMP, additive: PEG4000, the temperature of coagulation bath: 50℃, the evaporation time: 10s. The pure water flux of the membrane is 1.93m3/(m2•h•0.05Mpa), the rejection of BSA is 58.2?%.
于兰哲(1985-),女,内蒙古呼伦贝尔人,硕士研究生,研究方向为膜材料及分离.*通讯联系人:1.贠延滨,副教授,主要研究方向膜材料制备与表征。电话:13241730890,E-mail:ybyunbj@sohu.com;2.王丽华,博士后,副研究员。主要研究方向为膜分离。电话:13552822660, Email: wanglh@iccas.ac.cn。

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