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混凝-微滤工艺提高饮用水生物稳定性的试验研究 被引量:3

Pilot study on coagulation-microfilter process to improve the biostability of drinking water
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摘要 以滦河水为处理对象,考察了混凝-微滤工艺对原水中营养物的去除效果和对饮用水生物稳定性的影响.该工艺对DOC的去除率随混凝剂投加量的提高而增加,在FeCl3投加量为2mg/L时,DOC的平均去除率达到22.4%.该工艺可有效去除可生物降解溶解性有机碳(BDOC)和总磷,并分别达到饮用水生物稳定性的阈值要求(BDOC<0.25mg/L和TP<5μg/L);同时,工艺出水的细菌再生长潜力(BRP)比原水降低1个数量级.因此采用混凝-微滤工艺可有效提高饮用水的生物稳定性,控制水中细菌再生长趋势. Abstract. A pilot study was done to evaluate the impact of the coagulation-microfilter process on reduction of nutrient levels and on the biostability of treated water. The DOC removal efficiency increased with the increase of coagulant dosing, while the average DOC removal reached to 22.4% with adding 2 mg/L FeCl3 as coagulant. In addition, Biodegradable dissolved organic carbon (BDOC) and total phosphate (TP) could be removed effectively and the BDOC and TP in effluent were below the threshold of bio-stability, which is 0. 20-0. 25 mg/L and 5 μg/L respectively. And the bacterial regrowth potential (BRP) of the effluent could be degraded by 1 LOG. The results show that the coagulation-microfilter process is effective to im- prove the bio-stability of drinking water and to control the bacterial regrowth potential.
作者 陶润先 陈立 万宁 郭兴芳 朱开东
机构地区 中国市政工程华北设计研究院 天津市环境工程评估中心
出处 《膜科学与技术》 CAS CSCD 北大核心 2012年第1期106-110,共5页 Membrane Science and Technology
关键词 混凝 微滤 生物稳定性 BDOC 总磷 coagulation microfilter bio-stability BDOC TP
分类号 TU991.2 [建筑科学—市政工程]
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膜科学与技术
2012年 第1期

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