环境工程学报
環境工程學報
배경공정학보
CHINESE JOURNAL OF ENVIRONMENTAL ENGINEERING
2010年
1期
27-30
,共4页
臭氧光催化%甲醛%室内空气%空气净化器
臭氧光催化%甲醛%室內空氣%空氣淨化器
취양광최화%갑철%실내공기%공기정화기
combined photocatalysis and ozonation%formaldehyde%indoor air%air purifier
研究比较了3种光化学方法对水中低浓度甲醛的降解效果,考察了初始pH值、甲醛浓度和臭氧投加速率等因素对臭氧光催化(TiO_2/UV/O_3)降解甲醛的影响.结果表明,紫外臭氧(UV/O_3)、光催化(TiO_2/UV)和TiO_2/UV/O_3对甲醛的降解均符合表观一级反应动力学,TiO_2/UV/O_3降解甲醛的一级表观速率常数大于TiO_2/UV与UV/O_3之和,说明臭氧、光催化有明显的协同作用.pH值对臭氧光催化降解甲醛的速率几乎没有影响;甲醛初始浓度增加,表观反应速率常数下降,但甲醛的绝对去除量仍随初始浓度的增加而显著增加;臭氧投加速率增加,降解速率增加.甲醛降解的主要中间产物为甲酸,但甲酸在臭氧光催化反应过程中也快速降解而被矿化,说明臭氧光催化是一种能安全有效去除甲醛的方法.
研究比較瞭3種光化學方法對水中低濃度甲醛的降解效果,攷察瞭初始pH值、甲醛濃度和臭氧投加速率等因素對臭氧光催化(TiO_2/UV/O_3)降解甲醛的影響.結果錶明,紫外臭氧(UV/O_3)、光催化(TiO_2/UV)和TiO_2/UV/O_3對甲醛的降解均符閤錶觀一級反應動力學,TiO_2/UV/O_3降解甲醛的一級錶觀速率常數大于TiO_2/UV與UV/O_3之和,說明臭氧、光催化有明顯的協同作用.pH值對臭氧光催化降解甲醛的速率幾乎沒有影響;甲醛初始濃度增加,錶觀反應速率常數下降,但甲醛的絕對去除量仍隨初始濃度的增加而顯著增加;臭氧投加速率增加,降解速率增加.甲醛降解的主要中間產物為甲痠,但甲痠在臭氧光催化反應過程中也快速降解而被礦化,說明臭氧光催化是一種能安全有效去除甲醛的方法.
연구비교료3충광화학방법대수중저농도갑철적강해효과,고찰료초시pH치、갑철농도화취양투가속솔등인소대취양광최화(TiO_2/UV/O_3)강해갑철적영향.결과표명,자외취양(UV/O_3)、광최화(TiO_2/UV)화TiO_2/UV/O_3대갑철적강해균부합표관일급반응동역학,TiO_2/UV/O_3강해갑철적일급표관속솔상수대우TiO_2/UV여UV/O_3지화,설명취양、광최화유명현적협동작용.pH치대취양광최화강해갑철적속솔궤호몰유영향;갑철초시농도증가,표관반응속솔상수하강,단갑철적절대거제량잉수초시농도적증가이현저증가;취양투가속솔증가,강해속솔증가.갑철강해적주요중간산물위갑산,단갑산재취양광최화반응과정중야쾌속강해이피광화,설명취양광최화시일충능안전유효거제갑철적방법.
The degradation effects of low concentration formaldehyde in aqueous solution by three photochemical methods( UV/O_3 ,TiO_2/UV,TiO_2/UV/O_3) were compared, and the effects of initial pH, formaldehyde concentration and ozone addition rate on the formaldehyde degradation by TiO_2/UV/O_3 were studied. The results show that the degradations of formaldehyde in the three processes-UV/O_3 TiO_2/UV,TiO_2/UV/O_3, follow the apparent first-order reaction kinetics. The rate constant of TiO_2/UV/O_3 is larger than sum of those of TiO_2/UV and UV/O_3, which indicates a synergistic effect of photocatalysis and ozonation. The effect of pH on formaldehyde degradation by TiO_2/UV/O_3 can be ignored. The rate constant decreases with the increase of initial concentration of formaldehyde, while the absolute removal amount of formaldehyde increases with the increase of its initial concentration. The rate constant increases with the increase of ozone addition rate. Formic acid is identified as the main intermediate product during formaldehyde degradation; however, formic acid is quickly degraded and mineralized during the reaction, indicating that TiO_2/UV/O_3 is a safe and effective method to remove formaldehyde.