Degradation of Padron? by photochemical processes using artificial and sunlight radiation

Canela Maria Cristina; Teixeira Silvio César Godinho; Universidade Estadual do Norte Fluminense Darcy Ribeiro Campos dos Goytacazes Brasil

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Degradation of Padron? by photochemical processes using artificial and sunlight radiation

机译：帕德隆的退化？通过使用人工和阳光辐射的光化学过程

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Destruction of Padron® (dye and picloram) was evaluated using a photoreactor and a solar reactor. Photolysis was observed using only a germicide lamp (GL). Black light (BL) and H2O2 (172 mmol L -1) promoted a conversion of 49% and 6% of dye and picloram, respectively. Photocatalytic processes were more efficient using TiO2/GL (96%-dye; 60%-picloram) than TiO2/BL (44%-dye; 40%-picloram). Photolysis using sunlight was not observed during PadronÒ recirculation in the reactor constructed with four borosilicate tubes. Meanwhile, adding H2O2 resulted in 12% conversion of dissolved organic compounds. Finally, the most efficient mineralization (60%) was obtained using the Fenton reaction ( H2O2-176 mmol L-1; FeSO4x6H2O-90 mmol L-1) and sunlight.

机译：使用光反应器和太阳能反应器评估Padron®（染料和吡咯烷）的破坏。仅使用杀菌灯（GL）观察到光解。黑光（BL）和H2O2（172 mmol L -1）分别促进了染料和吡咯烷的转化率分别为49％和6％。使用TiO2 / GL（96％染料; 60％吡咯烷）的光催化工艺比TiO2 / BL（44％染料; 40％吡咯烷）更有效。在由四个硼硅酸盐管构成的反应器中，在Padron®循环期间未观察到使用阳光进行光解。同时，添加H 2 O 2导致溶解的有机化合物的转化率为12％。最后，使用Fenton反应（H2O2-176 mmol L-1; FeSO4x6H2O-90 mmol L-1）和阳光获得最有效的矿化作用（60％）。

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《Quimica nova 》 |2007年第8期| 共页
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Canela Maria Cristina; Teixeira Silvio César Godinho; Universidade Estadual do Norte Fluminense Darcy Ribeiro Campos dos Goytacazes Brasil;
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Degradation of Padron? by photochemical processes using artificial and sunlight radiation

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