高锰酸钾与粉状活性炭复合强化混凝西北地区村镇地窖雨水的研究

Fuping Wu, Xu Li, Zhenzhen Tan, Bo Xue, Yingchao Wang, Xiaofei Yan
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引用次数: 2

摘要

根据酒窖雨水的特点,西北地区乡村和小城镇的雨水具有浑浊、低温、微污染等特点。采用常规混凝法处理效果不佳。研究了三种强化凝血方法的效果。三种方法分别为单独高锰酸盐预氧化、单独添加粉末活性炭(PAC)和KMnO4与PAC复合。对三种方法进行了静态实验。结果表明:KMnO4与PAC复合增强凝血效果最好。在常规混凝的最佳条件下,当KMnO4的最佳投加量为2mg·L-1,预氧化时间为15min, PAC的最佳投加量为10mg·L-1,投加混凝剂3min后,强化混凝后的池水浊度去除率为98.5%,CODMn去除率为56.6%。实验还证明了两者之间存在协同效应。该方法对西北地区村镇蓄水池水的处理效果较好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Research on cellar rainwater of northwest region villages and small towns enhanced coagulation by potassium permanganate combined with powdered activated carbon
According to cellar rainwater characteristics, the rainwater contains turbidity, lower temperature and micropolluted in northwest region villages and small towns. The result is not fine by adopting the conventional coagulation. The effect of three ways regarding enhanced coagulation was studied. The three methods were permanganate pre-oxidation alone, powder activated carbon (PAC) added alone and KMnO4 and PAC combination. Static experiments of three methods were carried out. The results showed: KMnO4 and PAC combination had the best effect of enhanced coagulation. Under the best conditions in conventional coagulation, when the optimal dosage of KMnO4 was 2mg·L-1, pre-oxidation time was 15min, while the optimal dosage of PAC was 10mg·L-1 and was added after 3min of coagulant dosing, the removal rate of cistern water turbidity and CODMn could be 98.5% and 56.6% after enhancing coagulation. The experiment also proved that there were synergies between them. This approach was more efficient to treat with cistern water of northwest region villages and small towns.
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