摘要
通过本体改性或表面改性提高膜的亲水性可以减轻膜污染.然而,本体改性中加入的亲水物质过多会导致膜发生溶胀,造成膜的拉伸强力降低;接枝大分子的表面改性可能会引起膜表面堵孔,造成膜通量降低.本文将适量本体改性和小分子表面改性2种方法耦合对膜进行亲水化改性,有望打破单一改性方法中存在的局限性来更好的提高膜的抗污染性能.首先使用葡甲胺对聚偏氟乙烯-三氟氯乙烯(PVDF-CTFE)膜进行本体改性,之后使用小分子牛磺酸对本体改性后的PVDF-CTFE膜进行表面改性.结果表明,相较于单一本体改性膜,本体-表面耦合改性法所制备的膜的水接触角由91.5°降至41.8°,膜表面亲水性得到了很大的提升,且BSA过滤通量得到了明显提高.相较于单一表面改性膜,通过本体-表面耦合改性法所制备膜的纯水通量由3394 L/(m^(2)·h·MPa)提升至4743 L/(m^(2)·h·MPa).本体-表面耦合改性法使2种改性方法产生协同效应,有效提升纯水通量和亲水性以及抗污染性能.
Membrane fouling can be mitigated by improving the hydrophilicity of the membrane through bulk modification or surface modification.However,too many hydrophilic substances added to the bulk modification will cause the membrane to swell,resulting in a decrease in the tensile strength of the membrane.Surface modification of grafted macromolecules may cause pore plugging on the membrane surface and reduce membrane flux.In this paper,the hydrophilic modification of the membrane is carried out by coupling the two methods of bulk modification and small molecule surface modification,which isexpected to break the limitations of a single modification method and better improve the anti-fouling performance of the membrane.In this paper,meglumine was first used to modify the bulk of the polyvinylidene fluoride-trifluoroethylene(PVDF-CTFE)membrane,and then the surface of the modified PVDF-CTFE membrane was modified by small molecule taurine.The results show that compared with the single bulk modified membrane,the water contact angle of the membrane prepared by the bulk-surface coupling modification method is reduced from 91.5°to 41.8°,the hydrophilicity of the membrane surface is greatly improved,and the filtration flux of BSA is significantly improved.Compared with the single surface modified membrane,the pure water flux of the membrane prepared by the bulk-surface coupling modification method increased from 3394 L/(m^(2)·h·MPa)to 4743 L/(m^(2)·h·MPa).The bulk-surface coupling modification method enables the two modification methods to produce a synergistic effect,which can effectively improve the pure water flux,hydrophilicity and anti-fouling performance.
作者
王晨宇
吕晓龙
谷杰
任凯
刘子强
刘超
WANG Chenyu;LYU Xiaolong;GU Jie;REN Kai;LIU Ziqiang;LIU Chao(State Key Laboratory of Separation Membrane and Membrane Process,School of Materials Science and Engineering,Institute of Biochemical Engineering,Tiangong University,300387,China;State Key Laboratory of Membrane Materials and Membrane Applications,Tianjin Motimo Membrane Technology Co.,Ltd.,Tianjin 300457,China)
出处
《膜科学与技术》
CAS
CSCD
北大核心
2024年第4期123-129,139,共8页
Membrane Science and Technology
基金
国家重点研发计划项目(2023YFB3810504)。
