饮用水中典型微生物消毒过程中消毒副产物的生成规律

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摘要

以饮用水中典型微生物——大肠杆菌（Escherichia coli）为试验对象，研究pH值、氯化时间、氯投量及细菌浓度对大肠杆菌在氯化消毒过程中生成消毒副产物（DBPs）的影响，并分析何种氯化条件下，DBPs控制效果最佳.研究表明：随氯投量增加，二氯乙腈（DCAN）呈先上升后下降趋势；随氯化时间延长，三氯丙酮（1，1，1-TCP）和DCAN先增加后减少；在pH值从5升高到9时，1，1，1-DCP、三氯硝基甲烷（TCNM）、二氯乙酸（DCAA）和三氯乙酸（TCAA）持续降低；细菌污染水源事件在近年常有报道，当水源水中细菌浓度增加时，饮用水中三氯甲烷（TCM）、TCNM、DCAA和TCAA浓度增加，但DCAN、三氯乙腈（TCAN）、二氯丙酮（1，1-DCP）和1，1，1-TCP不一定增加.为了达到低毒性的目的，氯投量浓度不宜太高，同时控制氯化时间为6h和pH>8.

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	李林林
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	孙兴滨

关键词 ：大肠杆菌, 氯化消毒, 消毒副产物

Abstract：

Formation of disinfection by-products (DBPs) from chlorination of Escherichia coli, a bacterial strain which was commonly found in drinking water as a representative of aquatic microorganism, was investigated under selected conditions. Evaluated factors included contact time, chlorine dosages, pH and bacterial concentrations. These factors potentially influence the DBPs formation in the disinfection systems, which could be optimized for minimization of DBPs formation during chlorination of drinking water. Results showed that the formation of DCAN from the bacterial suspension initially increased and then decreased with increased chlorine dose. The formation of 1,1,1-TCP and DCAN followed a similar pattern of increase and then decrease with prolonged reaction time. At the same time, the concentrations of DCAA, TCAA, TCNM and 1,1,1-DCP decreased when pH was increased from 5 to 9. Bacterial contamination in aquatic environments has been extensively reported in recent years. Increased bacterial concentration in the raw water may lead to a higher formation of TCM, TCNM, DCAA and TCAA, but not for DCAN, TCAN, 1,1-DCP and 1,1,1-TCP. To achieve a low toxicity in drinking water, it is suggested from this study that chlorine concentration should be kept low, under disinfection contact time of 6h and alkaline condition (pH>8).

Key words： Escherichia coli chlorination disinfection by-products

收稿日期: 2016-04-20

PACS:

X703

基金资助:

黑龙江省自然科学基金项目（E200812）；中国博士后基金特别资助项目（200902408）

通讯作者: 孙兴滨,教授,290216154@qq.com E-mail: 290216154@qq.com

作者简介: 李林林(1990-),黑龙江齐齐哈尔人,东北林业大学硕士研究生,主要从事安全饮用水处理工艺理论与技术方面的研究.

引用本文:

李林林, 刘佳蒙, 宋弼尧, 孙兴滨. 饮用水中典型微生物消毒过程中消毒副产物的生成规律[J]. 中国环境科学, 2016, 36(12): 3631-3638. LI Lin-lin, LIU Jia-meng, SONG Bi-yao, SUN Xing-bin. Formation of major disinfection by-products from representative microorganisms during drinking water chlorination. CHINA ENVIRONMENTAL SCIENCECE, 2016, 36(12): 3631-3638.

链接本文:

http://manu36.magtech.com.cn/Jweb_zghjkx/CN/ 或 http://manu36.magtech.com.cn/Jweb_zghjkx/CN/Y2016/V36/I12/3631

[1]	张倩,杨晓波,周达诚.加氯消毒过程中纯细菌物质生成消毒副产物研究[J].环境科学学报,2010,30(2):314-320.
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[14]	朱明秋,高乃云.饮用水中典型含氮消毒副产物卤乙腈的生成和控制研究进展[J].给水排水,2013,39(8):1-4.
[15]	Chuang Yi-Hsueh,Tung Hsin-hsin.Formation of trichloronitro methane and dichloroacetonitrile innatural waters:Precursor characterization,kinetics and interpretation[J].Journal of Hazardous Materials,283(2015):218-226.
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[17]	Xie Y F.Disinfection Byproducts in Drinking Water:Formation,Analysis and Control[M].Lewis Publishers,2004.
[18]	Voukkali I,Zorpas A A.Disinfection methods and by-products formation[J].Desalination and Water Treatment,2015,56(5):1150-1161.
[19]	徐倩,徐斌,夏圣骥,等.饮用水中消毒副产物-卤化酮的生成特性与控制研究进展[J].四川环境,2011,30(1):101-105.
[20]	孙兴滨,胡阳,袁婷,等.高锰酸钾预氧化对剑水蚤DBPsFP的去除特征研究[J].中国环境科学,2015,35(11):3296-3302.
[1]	张倩,杨晓波,周达诚.加氯消毒过程中纯细菌物质生成消毒副产物研究[J].环境科学学报,2010,30(2):314-320.
[2]	Boucherit A,Moulay S,Ghernaout D.New Trends in Disinfection By-Products Formation upon Water Treatment[J].Journal of Research&Developments in Chemistry,2015,(2015):1-27.
[3]	Siddique A,Saied S,Zahir E,et al.Speciation and geospatial analysis of disinfection byproducts in urban drinking water[J].International Journal of Environmental Science and Technology,2014,11(3):739-746.
[4]	Plummer J D,Edzwald J K.Effect of ozone on algae as precursors for trihalomethane and haloacetic acid production[J].Environ.Sci.Technol.,2001,35(18):3661-3668.
[5]	Stevenson F J,Cole M A.Cycles of soil:Carbon,nitrogen,phosphorus,sulfur,micronutrients[N].New York:John Wiley&Song Inc,1999,2nded.
[6]	肖洁雯.三种消毒剂对消毒副产物的影响研究[D].广州:华南理工大学,2012.
[7]	Huang H,Wu W-Q,Tang X,et al.Formation of Haloacetonitriles and Haloacetamides during Chlorination of Pure Culture Bacteria[J].Chemosphere,2013,(92):375-381.
[8]	September S M,Els F A,Venter S N,et al.Prevalence of bacterial pathogens in biofilms of drinking water distribution systems[J].Journal of Water and Health,2007,5(2):219-227.
[9]	Zineba G,Hassan L,Mostafa M.Virulence phenotype,physicochemical properties,and biofilm formation of Pseudomonas aeruginosa on polyethylene used in drinking water distribution systems[J].Water Resources,2015,42(1):98-107.
[10]	Plewa M J,Wagner E D.Mammalian Cell Cytotoxicity and Genotoxicity of Disinfection By-Products[J].Water Research Foundation,2009.
[11]	肖洁雯,周达诚,王保强.饮用水中常见细菌对氯消毒副产物的影响[J].中国给水排水,2013,29(3):47-50.
[12]	U.S.EPA Method 551.1.Determination of chlorination disinfection by products,chlorinated solvents,and halogenated pesticides/herbicides in drinking water by liquid-liquid extraction and gas chromatography with electron-capture detection Revision 1.0.[S].
[13]	Sun Xingbin,Sun Lei,Lu Ying,et al.Influencing factors of disinfection byproducts formation during chloramination of Cyclops metabolite solutions[J].Journal of Environmental Sciences,2014,26(3):575-580.
[14]	朱明秋,高乃云.饮用水中典型含氮消毒副产物卤乙腈的生成和控制研究进展[J].给水排水,2013,39(8):1-4.
[15]	Chuang Yi-Hsueh,Tung Hsin-hsin.Formation of trichloronitro methane and dichloroacetonitrile innatural waters:Precursor characterization,kinetics and interpretation[J].Journal of Hazardous Materials,283(2015):218-226.
[16]	Glezer V,Harris B,Tal N,et al.Hydrolysis ofhaloacetonitriles:Linear free energy relationship,kinetics and products[J].Water Res.,1999,33:1938-1948.
[17]	Xie Y F.Disinfection Byproducts in Drinking Water:Formation,Analysis and Control[M].Lewis Publishers,2004.
[18]	Voukkali I,Zorpas A A.Disinfection methods and by-products formation[J].Desalination and Water Treatment,2015,56(5):1150-1161.
[19]	徐倩,徐斌,夏圣骥,等.饮用水中消毒副产物-卤化酮的生成特性与控制研究进展[J].四川环境,2011,30(1):101-105.
[20]	孙兴滨,胡阳,袁婷,等.高锰酸钾预氧化对剑水蚤DBPsFP的去除特征研究[J].中国环境科学,2015,35(11):3296-3302.