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首页> 外文期刊>Journal of neurosurgical sciences >Car Wash Wastewater Treatment Using an Advanced Oxidation Process: A Rapid Technique for the COD Reduction of Water Pollutant Sources
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Car Wash Wastewater Treatment Using an Advanced Oxidation Process: A Rapid Technique for the COD Reduction of Water Pollutant Sources

机译:使用先进的氧化过程进行洗车废水:一种快速的水污染物源的COD减少技术

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In this paper, a car wash wastewater (CW) was treated by an economic and eco-friendly method called electro-Fenton (EF) technique. The experiments were conducted to investigate the effect of five important variables including reaction time, current density, pH, H2O2/Fe2+ molar ratio and H2O2/Car wash wastewater (mL/L) on the quality characteristics of wastewater such as COD, BOD5, TOC, TSS, heavy metals, EC, surfactants and hardness. By applying Box-Behnken design (BBD) and response surface methodology (RSM), the optimum operating conditions were obtained. The optimum conditions for COD [as a main factor in a wastewater (according to the environmental protocols)] removal of 68.72% were experimentally found at reaction time of 75.80 min, current density of 58.81 mA/cm(2), pH of 3.02, volume ratio of H2O2/CW of 1.62 mL/L, H2O2/Fe2+ molar ratio of 3.66.
机译:本文采用了一种称为电芬(EF)技术的经济和生态辅助方法处理洗车废水(CW)。 进行实验以研究五个重要变量的效果,包括反应时间,电流密度,pH,H2O2 / Fe2 +摩尔比和H 2 O 2 /洗涤废水(ML / L)对废水的质量特征,如COD,BOD5,TOC ,TSS,重金属,EC,表面活性剂和硬度。 通过应用Box-Behnken设计(BBD)和响应表面方法(RSM),获得了最佳的操作条件。 COD的最佳条件[作为废水中的主要因素(根据环境方案)]在75.80分钟的反应时间上进行实验发现68.72%,电流密度为58.81mA / cm(2),pH为3.02, H 2 O 2 / CW的体积比为1.62mL / L,H 2 O 2 / Fe2 +摩尔比为3.66。

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