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作 者:杨晓燕[1] 陈雷[1] 陆雪梅[1] 徐炎华[1]
出 处:《南京工业大学学报(自然科学版)》2008年第3期30-33,共4页Journal of Nanjing Tech University(Natural Science Edition)
基 金:国家重大科技支撑计划项目(2006BAC02A15);江苏省省级环保科技项目(2007021)
摘 要:吡虫啉农药生产废水是一种典型的高浓度难降解有机废水,可生化性差,需采用物化法进行预处理。采用微电解-芬顿法作为吡虫啉农药生产废水的主要预处理工艺,有效地降低了废水中有机物浓度,提高了废水预处理出水的可生化性。实验结果表明,微电解最佳条件:pH3-4,停留时间90min;芬顿法的最佳条件:微电解出水调pH4-5,控制停留时间1h,30%H2O2按140mg/L的比例投加,最终预处理出水的COD去除率为81%,色度的去除率达90%,BOD5/COD提高到0.25以上,废水可生化性大大提高。Midacloprid pesticide wastewater is a typical organic wastewater. With high concentration of some kinds of persistent organic pollutants, it is difficult to be directly degraded by bio-treatment, and needs to be pre-treated by some physic-chemical processes. Microelectrolysis method and microelectrolysis-Fenton method, microelectrolysis enhanced by addition with H202, were investigated for the pesticide wastewater pretreatment, respectively. The optimal conditions of the pretreatment were determined as follows: pH 3-4 and reaction time 90 min for micro-e-lectrolysis method, while the dosage of H2O2 140 mg/L, pH 4-5, and reaction time 60 min for the microelectroly-sis-Fenton method. Under the above-mentioned conditions for the microelectrolysis-Fenton method, about 81% and 90% removal were obtained for COD and chroma, respectively. Furthermore, the value of BOD5/COD was found to be increased above 0.25, which implied the biodegradability for the wastewater was improved evidently.
分 类 号:X703[环境科学与工程—环境工程]
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