Olivier Chedeville, Ayse Tosun-Bayraktar, Catherine Porte
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引用次数: 12
摘要
苯酚是一种存在于各种工业废水中的有机污染物。由于其杀菌特性,传统的治疗方法很难将其消除。在温和的温度和压力条件下,研究了Fenton反应对该化合物的降解。为了量化操作参数对该方法效率的影响,进行了实验设计。研究领域的定义在20到50之间(;)温度为C,苯酚浓度为1和4 g L(-1), H(2)O(2)与苯酚的摩尔比为10和28,Fe(II)与苯酚的浓度比为0.02至0.08。结果表明,温度和催化剂用量对其影响较大。建立了COD降低模型。COD下降幅度在40% ~ 72%之间,苯酚完全消失。
Modeling of fenton reaction for the oxidation of phenol in water.
Phenol is an organic pollutant found in various types of industrial wastewater. Due to its bactericidal properties, it is difficult to eliminate it by classic treatment methods. In this work, the degradation of this compound by Fenton reaction at mild temperature and pressure conditions is studied. An experimental design was applied in order to quantify the influence of operating parameters on the efficiency of this method. The field of study was defined between 20 and 50(;)C for the temperature, 1 and 4 g L(-1) for the phenol concentration, 10 and 28 for the H(2)O(2) to phenol molar ratio, and 0.02 to 0.08 for the Fe(II) to phenol concentration ratio. It was shown that the temperature and the amount of catalyst have a strong influence. A model giving the decrease of COD was established. The COD decrease was between 40% and 72% and phenol had totally disappeared.
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