Oxidative Degradation of Bisphenol A (BPA) by UV/H2O2 Process

机译：通过UV / H 2 O 2工艺氧化脱酚A（BPA）的氧化降解

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The photochemical degradation of Bisphenol A(BPA) in UV/H2O2 advanced oxidation process was studied in this paper. The combined UV/H2O2 process could effectively degraded BPA. Results show that BPA degradation rate was affected by H2O2 concentration, intensity of UV radiation, initial BPA concentration, and solution pH. The first order rate constant(k) increased with H2O2 concentration from 5 to 20mg/L and decreased when H2O2 concentration exceeded 50mg/L. Increasing UV radiation intensity signicantly increased the degradation rate of BPA. The degradation rate of BPA decreased with increasing BPA concentration. The value of k increased with increasing pH in the range of pH 2.1-4.5, but decreased at higher solution pH. NO3-、Cl-、HCO3- have inhibitory action on BPA photodegradation; their inhibitory action order is HCO3->NO3->Cl- when anions concentrations were 5mmol/L.

机译：本文研究了UV / H2O2晚期氧化过程中双酚A（BPA）的光化学降解。组合的UV / H2O2过程可以有效降解BPA。结果表明，BPA降解速率受H 2 O 2浓度，紫外线辐射强度，初始BPA浓度和溶液pH的影响。第一阶率常数（k）随5至20mg / L的H 2 O 2浓度增加，并且当H 2 O 2浓度超过50mg / L时降低。增加紫外线辐射强度致明显增加了BPA的降解率。随着BPA浓度的增加，BPA的降解率降低。 k值随pH值的增加而增加，但在较高的溶液pH下降低。 NO3-，CL-，HCO3对BPA光降解具有抑制作用;当阴离子浓度为5mmol / L时，它们的抑制作用顺序是HCO3-> NO3-> CL-。

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《International Conference on Bioinformatics and Biomedical Engineering》|2010年||共4页
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Pan Jing; Chen Yongqiang;
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Oxidative Degradation of Bisphenol A (BPA) by UV/H2O2 Process

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