会议专题

Atrazine degradation in solar irradiation/ S-doped titanium diozide treatment

Atrazine is a widely-used herbicide and always contaminates water bodies due to its relatively higher solubility and persistence. The removal efficiency of atrazine in water and the influencing factors by combined process of solar irradiation and Sdoped TiO2 were studied in detail, in which S-doped TiO2 photocatalyst with high sunlight activity was prepared by acid catalyzed hydrolysis method using thiourea as sulfur source; As a comparison, solar/TiO2 process was studied in the meantime; The experiment results showed that atrazine could be more effectively oxidized by the solar/S-doped TiO2 process than by solar/ TiO2 process, whose removal effect were 60% and 40% after 30 mins irradiation, respectively; Pseudo-first-order model could be used to simulate the oxidation process in which the degradation rate coefficients were independent of the initial concentration of atrazine; Degradation rate could be greatly affected by the concentration of H2O2, the optimum concentration for the system of solar/S-doped TiO2 was found to be 20mg/L, which was 5mg/L higher than that of solar/TiO2 system; Lower water pH favor the degradation of atrazine for the change of charge density of both the atrazine molecular and photo-catalyst surface; Humic acids decreased both the degradation rate of the two processes, and solar/S-doped TiO2 process more easily affected, for the humic acids could not only compete with molecular atrazine for radicals but also adsorb part of sunlight which can excite radical with TiO2.

atrazine sunlight S-doped titanium diozide

Cheng LIU Wei CHEN Yu SHENG Lei LI

Key Laboratory of Integrated Regulation and Resource Development Shallow Lakes (Ministry of Education) College of Environmental Science and Technology,Hohai University

国际会议

The 3rd International Conference on Bioinformatics and Biomedical Engineering(iCBBE 2009)(第三届生物信息与生物医学工程国际会议)

北京

英文

1-4

2009-06-11(万方平台首次上网日期,不代表论文的发表时间)