摘要
采用聚酯无纺布(PET)作为支撑层,利用相转换法在PET表面制备聚乙烯醇(PVA)或PVA-SiO_(2)活性层,得到了PVA/PET复合膜与PVA-SiO_(2)/PET复合膜。考察了2种复合膜的过滤性能和污染行为。结果表明,PVA中加入质量分数4%纳米SiO_(2)颗粒,复合膜的接触角降至33.1o,亲水性显著增强,而膜孔径减小至3.1 nm,降低了85.5%,PVA/PET超滤膜转变为PVA-SiO_(2)/PET纳滤膜(0.6 L/(m^(2)·h))。PVA-SiO_(2)/PET复合纳滤膜对海藻酸钠的抗污染性能较强。纳米SiO_(2)对复合膜的污染机制无明显影响,模拟污染物对复合膜的污染机制以标准堵塞为主。
The polyester nonwoven(PET)was used as the support,and prepared polyvinyl alcohol(PVA)or PVA-SiO_(2) active layer on the PET surface by phase inversion method,PVA-PET composite membrane and PVA-SiO_(2)/PET composite membrane were obtained.The filtration performance and pollution behavior of two composite membranes were investigated.The results showed that,the contact angle of PVA-SiO_(2)/PET decreased to 33.1°,and then hydrophilicity was further enhanced,the corresponding pore size was decreased to 3.1 nm(by 85.5%)with SiO_(2) with mass fraction of 4%added in PVA.Thus,the PVA-PET ultrafiltration membrane was transformed into PVA-SiO_(2)/PET nanofiltration membrane(0.6 L/(m^(2)·h)).PVA-SiO_(2)/PET nanofiltration membrane had better antifouling property to SA.PVA-SiO_(2)/PET composite nanofiltration membrane had strong anti-pollution performance on sodium alginate.The presence of SiO_(2) nanoparticles had no obvious impact on the fouling mechanism of PVA-PET.The pollution mechanism of simulated pollutants on the composite membrane was mainly standard plugging.
作者
范丹丹
张凤姣
王旭巍
代少虎
左行涛
熊娟
FAN DANDan;ZHANG Fengjiao;WANG Xuwei;DAI Shaohu;ZUO Xingtao;XIONG Juan(College of Resources and Environment,Huazhong Agricultural University;College of Science,Huazhong Agricultural University,Wuhan 430070,China)
出处
《水处理技术》
CAS
CSCD
北大核心
2021年第3期73-77,共5页
Technology of Water Treatment
基金
中央高校基本科研业务费专项基金(2662018JC013、2662017JC019)。
关键词
聚酯无纺布复合膜
聚乙烯醇
二氧化硅
过滤性能
污染堵塞机制
polyester non-woven composite membrane
PVA
SiO_(2)
filtration performance
pollution blocking mechanism
