海南师范大学学报:自然科学版
海南師範大學學報:自然科學版
해남사범대학학보:자연과학판
Journal of Hainan Normal University:Natural Science
2012年
1期
56-62,76
,共8页
刘津嫒%王彬%刘希龙%吴春燕%杨婷%陈暘%吴秀宁%华英杰%王崇太
劉津嬡%王彬%劉希龍%吳春燕%楊婷%陳暘%吳秀寧%華英傑%王崇太
류진애%왕빈%류희룡%오춘연%양정%진양%오수저%화영걸%왕숭태
铁取代杂多阴离子%DMP降解%光催化%羟基自由基%总有机碳%光芬顿
鐵取代雜多陰離子%DMP降解%光催化%羥基自由基%總有機碳%光芬頓
철취대잡다음리자%DMP강해%광최화%간기자유기%총유궤탄%광분돈
iron-substituted heteropolyanion%dimethylphthalate degradation%photocatalysis%hydroxyl radicals%totalorganic carbon%photo-fenton
一个以Keggin型铁取代杂多阴离子PW11O39Fe(Ⅲ)(H2O)^4-[PW11Fe(Ⅲ)(H2O)]为光催化剂的新颖类光芬顿体系被用于邻苯二甲酸二甲酯(DMP)的光催化降解。实验结果表明,在pH6.86的含有0.1mmol·L^-1 DMP+1.0mmol·L^-1PW11Fe(Ⅲ)(H2O)+3.0mmol·L^-1H2O2。磷酸盐缓冲溶液中,反应80minDMP的降解率达到100%,总有机碳去除率为43%,并详细考察了溶液pH、初始过氧化氢浓度和PW11Fe(Ⅲ)(H2O)浓度对降解效率的影响。提出了过氧化氢存在和缺失条件下的光催化机制,这个新颖的类光芬顿体系为实际的水处理提供了潜在的应用。
一箇以Keggin型鐵取代雜多陰離子PW11O39Fe(Ⅲ)(H2O)^4-[PW11Fe(Ⅲ)(H2O)]為光催化劑的新穎類光芬頓體繫被用于鄰苯二甲痠二甲酯(DMP)的光催化降解。實驗結果錶明,在pH6.86的含有0.1mmol·L^-1 DMP+1.0mmol·L^-1PW11Fe(Ⅲ)(H2O)+3.0mmol·L^-1H2O2。燐痠鹽緩遲溶液中,反應80minDMP的降解率達到100%,總有機碳去除率為43%,併詳細攷察瞭溶液pH、初始過氧化氫濃度和PW11Fe(Ⅲ)(H2O)濃度對降解效率的影響。提齣瞭過氧化氫存在和缺失條件下的光催化機製,這箇新穎的類光芬頓體繫為實際的水處理提供瞭潛在的應用。
일개이Keggin형철취대잡다음리자PW11O39Fe(Ⅲ)(H2O)^4-[PW11Fe(Ⅲ)(H2O)]위광최화제적신영류광분돈체계피용우린분이갑산이갑지(DMP)적광최화강해。실험결과표명,재pH6.86적함유0.1mmol·L^-1 DMP+1.0mmol·L^-1PW11Fe(Ⅲ)(H2O)+3.0mmol·L^-1H2O2。린산염완충용액중,반응80minDMP적강해솔체도100%,총유궤탄거제솔위43%,병상세고찰료용액pH、초시과양화경농도화PW11Fe(Ⅲ)(H2O)농도대강해효솔적영향。제출료과양화경존재화결실조건하적광최화궤제,저개신영적류광분돈체계위실제적수처리제공료잠재적응용。
A novel photo-Fenton-like (PFL) system using a Keggin-type iron-substituted heteropolyanion PW11039Fe(Ⅲ)(H2O)^4-[PW11Fe(Ⅲ)(H20)] as photocatalyst was employed to the photocatalytic degradation of dimethylphthalate (DMP). The experimental results showed that a complete DMP degradation and a 43% total organic carbon (TOC) removal was obtained in less than 80 min in a pH 6.86 mixed phosphate buffer solution containing 0.1 mmol·L^-1 DMP + 1.0 mmol·L^-1 PWllFe(Ⅲ) (H2O) +3.0 mmol. L-j H2O2. Effects of solution pH, initial H2O2 and PW11Fe (Ⅲ) (H2O) concentration on the rate of DMP degradation were also examined, respectively. Mechanisms of photo-catalysis in the absence of H2O2 and in the presence of H2O2 were simultaneously proposed. The PFL system provides a potential application in practical treatment of wastewater with a relaxed pH requirement.
