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环境工程学报 2012

光催化降解水体异味物质2-MIB的机理

何燕,刘立明,张钰,方艳芬,顾彦,黄应平,张爱清

Keywords: 2-甲基异莰醇(2-MIB),TiO2,光催化

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Abstract:

以水体异味物质2-甲基异莰醇(2-methylisoborneol，2-MIB)为研究对象，在紫外光(λ＜380nm)照射下，探讨TiO2(P25)对2-MIB的光催化降解特性及光化学作用机理。结果表明，UV/TiO2光催化体系可以有效去除水体异味物质2-MIB，紫外光照射60min，对2-MIB的降解率达95%。同时研究了光催化降解体系介质pH，共存腐殖酸(HA)和过硫酸钾(K2S2O8)对UV/TiO2光催化体系降解2-MIB的影响，发现低浓度HA(［HA］≤0.5mg/L)可以提高2-MIB降解速率，当HA浓度高于0.5mg/L，2-MIB降解反应受到抑制；同时当加入电子受体K2S2O8后，降解体系中活性物种羟基自由基(?OH)明显增加，提高了TiO2对2-MIB的降解能力。利用苯甲酸荧光光度法和POD-DPD显色法跟踪测定降解过程中羟基自由基(?OH)和过氧化氢(H2O2)的变化，表明光催化反应涉及?OH机理。

References

[1]	Srinivasana R;Sorial G.A.Treatment of taste and odor cau-sing compounds 2-methylisoborneol and geosmin in drinking water:A critical review[J].Journal of Environmental Sciences,2011(1)doi:10.1016/S1001-,0742(10)60367-1
[2]	李林,淡水水体中藻源异味化合物的分布动态变化与降解研究,武汉:中国科学院水生生物研究所,2005.
[3]	Pendleton P. ；Schumann R. ；Levay G. ；Denoyel R. ；Rouquerol J. ；Wong SH.,PROPERTIES OF ACTIVATED CARBON CONTROLLING 2-METHYLISOBORNEOL ADSORPTION,Carbon？,1997, 35(8).
[4]	Huber M.M;Canonica S;Park G.Y,Oxida-tion of pharmaceuticals during ozonation and advanced oxi-dation processes,Environmental Science and Technology,2003(5).
[5]	Juttenr F;Watson S.B,Biochemical and ecological con-trol of geosmin and 2-methylisoborneol in source waters,Applied and Environmental Microbiology,2007(14).
[6]	李林;宋立荣;陈伟.淡水藻源异味化合物的光降解和光催化降解研究[J].中国给水排水,2007(13)
[7]	宋立荣;李林;陈伟.水体异味及其藻源次生代谢产物研究进展[J].水生生物学报,2004(4)
[8]	Jang L.R;Zhao C;Huang Y.P,Photocatalyt-ic degradation of organic pollutants ct-FeOOH under visible light,Environmental Chemistry,2007(4).
[9]	Ishibashi K;Fujishima A;Watanabe T,De-tection of active oxidative species in TiO2 photocatalysis u-sing the fluorescence technique,Electrochemistry Commu-nications,2000(3).
[10]	Bader H;Sturzenegger V;Hoigne J,Photometric method for the determination of low concentrations of hydrogen peroxide by the peroxidase catalyzed oxidation of N,N-diethyl-p-phenylene-diamine(DPD),Water Research,.
[11]	马晓雁;高乃云;李青松.气相色谱法测定饮用水中痕量土臭素和二甲基异冰片[J].分析测试学报,2007(2)doi:10.3969/j.issn.1004-4957.2007.02.032
[12]	邓安平;黄应平;方艳芬.TiO2的低温制备及其对有毒有机污染物的降解[J].影像科学与光化学,2009(2)
[13]	Umarlbrahim G,Heterogeneous photocatalytic degradation of organic contaminants over titanium dioxide:A review of fundamentals,progress and problems,Journal of Photo-chemistry and Photobiology C:Photochemistry Reviews,2008(9).
[14]	Akira Fujishima ；Xintong Zhang ；Donald A. Tryk,TiO_2 photocatalysis and related surface phenomena,Surface Science Reports？,2008, 63(12).
[15]	Ishibashi K;Fujishima A;Watanabe T,Quantum yields of active oxidative species formed on TiO2 photocatalyst,Journal of Photochemistry and Photobiology A:Chemistry,2000(1-2).
[16]	Carp O;Huisman C.L;Reller A,Photoinduced re-activity of titanium dioxide,Progress in Solid State Chem-istry,2004(1-2).
[17]	ELENA SELLI ；DANIELA BAGLIO ；LUCA MONTANARELLA,ROLE OF HUMIC ACIDS IN THE TiO2-PHOTOCATALYZED DEGRADATION OF TETRACHLOROETHENE IN WATER,Water Research？,1999, 33(8).
[18]	Jose R. Garbin ；Debora M.B.P. Milori ；Marcelo L. Simoes ；Wilson T.L. da Silva ；Ladislau Martin Neto,Influence of humic substances on the photolysis of aqueous pesticide residues,Chemosphere？,2007, 66(9).
[19]	Lin, C ；Lin, KS,Photocatalytic oxidation of toxic organohalides with TiO2/UV: The effects of humic substances and organic mixtures,Chemosphere？,2007, 66(10).
[20]	M. Saquib ；M. Muneer,Semiconductor mediated photocatalysed degradation of an anthraquinone dye Remazol Brilliant Blue R under sunlight and artificial light source,Dyes and Pigments？,2002, 53(3).

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