环境工程学报
環境工程學報
배경공정학보
CHINESE JOURNAL OF ENVIRONMENTAL ENGINEERING
2010年
1期
128-132
,共5页
白红伟%邵嘉慧%张西旺%孙德来
白紅偉%邵嘉慧%張西旺%孫德來
백홍위%소가혜%장서왕%손덕래
微滤%TiO_2光催化%腐殖酸%膜污染%去除率
微濾%TiO_2光催化%腐殖痠%膜汙染%去除率
미려%TiO_2광최화%부식산%막오염%거제솔
microfiltration%TiO_2 photocatalytic oxidation%humic acid%membrane fouling%removal efficiency
着重研究了不同紫外灯光源和照射时间条件下TiO_2光催化(PCO)对微滤去除腐殖酸过程中的膜污染控制,并探讨了膜污染的控制机理.研究结果表明,TiO_2光催化能有效提高微滤对腐殖酸的去除,同时降低膜通量的下降,起到有效控制膜污染的作用.进一步的实验分析表明,TiO_2光催化控制膜污染的主要机理在于将腐殖酸降解为易于被TiO_2吸附的小分子量物质,吸附腐殖酸降解产物后的TiO_2聚合颗粒粒径增大,易于在膜表面形成更为松散的沉积层,并使膜污染从以膜孔堵塞和沉积层污染为主转化为以沉积层污染为主的可逆性污染.
著重研究瞭不同紫外燈光源和照射時間條件下TiO_2光催化(PCO)對微濾去除腐殖痠過程中的膜汙染控製,併探討瞭膜汙染的控製機理.研究結果錶明,TiO_2光催化能有效提高微濾對腐殖痠的去除,同時降低膜通量的下降,起到有效控製膜汙染的作用.進一步的實驗分析錶明,TiO_2光催化控製膜汙染的主要機理在于將腐殖痠降解為易于被TiO_2吸附的小分子量物質,吸附腐殖痠降解產物後的TiO_2聚閤顆粒粒徑增大,易于在膜錶麵形成更為鬆散的沉積層,併使膜汙染從以膜孔堵塞和沉積層汙染為主轉化為以沉積層汙染為主的可逆性汙染.
착중연구료불동자외등광원화조사시간조건하TiO_2광최화(PCO)대미려거제부식산과정중적막오염공제,병탐토료막오염적공제궤리.연구결과표명,TiO_2광최화능유효제고미려대부식산적거제,동시강저막통량적하강,기도유효공제막오염적작용.진일보적실험분석표명,TiO_2광최화공제막오염적주요궤리재우장부식산강해위역우피TiO_2흡부적소분자량물질,흡부부식산강해산물후적TiO_2취합과립립경증대,역우재막표면형성경위송산적침적층,병사막오염종이막공도새화침적층오염위주전화위이침적층오염위주적가역성오염.
The effect of the UV light source and its irradiation time on the removal of humic acid and the flux of microfiltration (MF), and the fouling control mechanism by TiO_2 photocatalytic oxidation ( PCO) were given. Results showed that TiO_2 photocatalytic oxidation was able to improve the removal of humic acid and slow down the flux reduction, at the same time played a role in membrane fouling control. The fouling control mechanism was proposed. Humic acid was first degraded into smaller molecular weight ones, which were easily to be adsorbed by TiO_2 to form larger aggregated particles. These larger aggregated particles were then deposited on the membrane surface loosely but without blocking the membrane pores,which transferred the fouling from the irreversible phase (pore blocking) to reversible phase (cake layer).
