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炭砂滤池对农村饮用水中浊度及细菌的去除效果
引用本文:曾洁, 陈正福, 吴尚书, 叶成松, 于鑫, 王蕾, 张胜华. 炭砂滤池对农村饮用水中浊度及细菌的去除效果[J]. 环境工程学报, 2020, 14(10): 2736-2741. doi: 10.12030/j.cjee.201911049
作者姓名:曾洁  陈正福  吴尚书  叶成松  于鑫  王蕾  张胜华
作者单位:1.中国科学院城市环境研究所,城市环境与健康重点实验室,厦门 361021; 2.武汉市江夏区水务和湖泊局,武汉 430200; 3.辽宁石油化工大学石油天然气工程学院,抚顺 113001; 4.厦门理工学院,福建省农村污水处理与用水安全工程研究中心,厦门 361021
基金项目:福建省中科院STS计划配套项目(2018T3102);福建省农村污水处理与用水安全工程研究中心开放研究基金(RST201806)
摘    要:粗滤-炭砂过滤是简单实用的农村水处理工艺。通过中试装置,检测了滤池对浊度、细菌总数和大肠杆菌的去除效果,研究了炭砂滤池出水安全性。结果表明:炭砂滤池能进一步降低粗滤池出水浊度,并将其控制在0.7~2.2 NTU;砂层作为保证出水浊度的屏障,其浊度去除率在炭层基础上可再增加11.1%;炭砂滤池对大肠杆菌的平均去除率随着滤速的降低而增大,且该差异主要是由炭层贡献的;当滤速为5 m·h−1时,炭砂滤池对大肠杆菌平均对数去除率为0.79;但滤池运行过程中会产生微生物泄露的现象,对细菌总数基本无去除作用。因此,为保障出水的微生物安全性,炭砂滤工艺后须增加行之有效的消毒工艺。

关 键 词:炭砂滤   浊度   细菌总数   大肠杆菌   农村供水
收稿时间:2019-11-11

Removal effect of turbidity and bacteria in rural drinking water by GAC-sand filter
ZENG Jie, CHEN Zhengfu, WU Shangshu, YE Chengsong, YU Xin, WANG Lei, ZHANG Shenghua. Removal effect of turbidity and bacteria in rural drinking water by GAC-sand filter[J]. Chinese Journal of Environmental Engineering, 2020, 14(10): 2736-2741. doi: 10.12030/j.cjee.201911049
Authors:ZENG Jie  CHEN Zhengfu  WU Shangshu  YE Chengsong  YU Xin  WANG Lei  ZHANG Shenghua
Affiliation:1.Key Lab of Urban Environment and Health, Institute of Urban Environment, Chinese Academy of Sciences, Xiamen 361021, China; 2.Wuhan Jiangxia District Bureau of Water and Lakes Affairs, Wuhan 430200, China; 3.College of Petroleum Engineering, Liaoning Shihua University, Fushun 113001, China; 4.Fujian Engineering and Research Center of Rural Sewage Treatment and Water Safety, Xiamen University of Technology, Xiamen 361021, China
Abstract:Roughing filtration-GAC-sand filtration is a simple and practical rural drinking water treatment process. The removal effects of turbidity, total bacteria count and Escherichia coli were tested for the pilot-scale unit, and effluent safety of -GAC-sand filter was studied. Results indicated GAC-sand filter could further reduce the effluent turbidity of roughing filter to around 0.7~2.2 NTU. As a barrier for ensuring effluent turbidity, the turbidity removal efficiency of sand layer increased by 11.1% compared with that of the GAC layer. The average removal efficiency of Escherichia coli by GAC-sand filter increased with the decrease of filtration rate, which was dominated by GAC layer. The average log removal rate of Escherichia coli was 0.79 for GAC-sand filter at filtration rate of 5 m·h−1. However, microbial leakage phenomenon occurred during GAC-sand filter running, which had almost no removal effect for total bacterial counts. Thus, effective disinfection treatment should be added and guaranteed after GAC-sand filter to ensure the microbial safety of drinking water.
Keywords:GAC-sand filtration  turbidity  total bacterial count  Escherichia coli  rural water supply
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