Influencing factors of disinfection byproducts formation during chloramination of Cyclops metabolite solutions

Effects of reaction time, chlorine dosage, pH and temperature on the formation of disinfection byproducts(DBPs), were investigated during the chloramination of Cyclops metabolite solutions. The results showed that some species of DBPs like trichloromethane(TCM), dichloroacetic acid(DCAA) and trichloroacetic acid(TCAA) could accumulate to their respective stable values with a progressive elevation in reaction time and monochloramine concentration. And 1,1,1-2-trichloropropanone(1,1,1-TCP) content decreased correspondingly with a continuous increase of reaction time. The amounts of chloral hydrate(CH), chloropicrin(TCNM), 1,1,1-TCP and DCAA firstly increased and then decreased with increasing monochloramine doses. Higher temperature resulted in a decrease of CH, dichloroacetonitrile(DCAN), 1,1-dichloropropanone(1,1-DCP), 1,1,1-TCP, DCAA and TCAA concentration. pH affected the formation of the different DBPs distinctly. TCM accumulateded with the increase of pH under 9, and DCAA, TCAA, CH and 1,1-DCP decreased continuously with increasing pH from 5 to 10, and other DBPs had the maximum concentrations at pH 6–7.     

模拟泳池水中氯化消毒副产物的生成规律

以模拟泳池水为研究对象,研究不同的氯化时间、氯投加量、pH值、反应温度条件对泳池水在氯化消毒过程中生成消毒副产物（DBPs）的影响.研究结果表明：延长氯化反应时间,二氯乙酸（DCAA）、三氯乙酸（TCAA）和三氯甲烷（TCM）的浓度不断升高,二氯乙腈（DCAN）、三氯硝基甲烷（TCNM）和1,1,1-三氯丙酮（1,1,1-TCP）的浓度则先升高再降低.DBPs浓度在氯化反应的前24h增幅较大,48h后趋于平缓;随着氯投加量的增加,DCAA、TCAA、TCM、TCNM和1,1,1-TCP浓度一直呈上升趋势,而DCAN浓度则先升高再降低.在氯投加量为2mg/L时,DBPs的浓度较低;在pH值从6升高到8的过程中,DCAA、TCAA、DCAN和1,1,1-TCP浓度先升高再降低,TCM和TCNM浓度则一直升高.pH值在6~7范围内可有效控制DBPs的形成;随着反应温度的升高,DCAA、TCAA、TCM和TCNM浓度持续升高,DCAN和1,1,1-TCP则逐渐降低.综上所述,应合理调节泳池水的氯化消毒条件,在保证舒适度的同时有效控制DBPs的生成.     

膜生物反应器处理城市污水的后续次氯酸钠消毒研究

针对膜生物反应器（membrane bioreactor,MBR）处理城市污水的后续次氯酸钠消毒,分别开展了不同氯的投加剂量对指示微生物（总大肠菌群和粪大肠菌群）的灭活效果、消毒副产物（disinfection by-products,DBPs）生成量以及消毒后出水发光菌急性毒性研究.结果表明,在工程应用中MBR处理工...     

我国地表水中典型DBPs的暴露水平及生态风险

氯消毒过程中可能生成有毒有害的副产物,会对水生态系统和环境健康产生直接和间接的次生危害.三卤甲烷（THMs）和卤乙酸（HAAs）是地表水中检出率最高的消毒副产物（DBPs）,其毒性效应受到广泛关注.本文检索整理了三氯甲烷（TCM）、三溴甲烷（TBM）、二氯乙酸（DCAA）和三氯乙酸（TCAA）在我国地表水暴露浓度和对水生生物的毒性效应浓度,了解我国重点流域地表水环境中TCM、TBM、DCAA和TCAA的浓度水平,分别利用急、慢性毒性数据推导预测无效应浓度（PNEC）,并使用风险商（RQ）和概率生态风险评价法（PERA）对我国重点流域水环境中TCM、TBM、DCAA和TCAA进行多层次生态风险评估.结果表明,我国地表水环境中TCM、TBM、DCAA和TCAA暴露浓度范围为n.d.~51μg/L.以致死和生长、繁殖等为测试终点的急、慢性毒性数据,构建物种敏感度分布（SSD）曲线,推导出TCM、TBM、DCAA和TCAA的PNEC值分别为0.586,0.857,0和44.880mg/L;0.006,0.064,0.956和0.012mg/L.基于急、慢性毒性数据计算出的RQ小于1.我国重点流域中TCM和TCAA对1%的水生生物造成生长、繁殖等慢性毒性影响的概率分别为78.86%和20.61%,存在潜在的生态风险.     

饮用水处理中活性炭吸附卤乙酸的特性

采用静态和动态试验研究了活性炭对卤乙酸的物理吸附特性。静态试验表明：在单吸附质条件下,二氯乙酸和三氯乙酸的吸附等温线在低浓度区（Ｃｅ〈５０μｇ／Ｌ）表现为单层吸附,在高浓度区表现为多层吸附。活性炭对三氯乙酸的吸附能力高于二氯乙酸。在饮用水处理常见的浓度范围内,活性炭对三氯乙酸的吸附容量约为二氯乙酸的２倍。在多吸附质条件下,对三氯乙酸的吸附容量只略的降低,对二氯乙酸的吸附容量则显著下降,这与有机物的     

水中典型含氮有机物氯化生成消毒副产物的潜能研究

选取了受污染原水中广泛存在的12种含氮有机物（除草剂、杀虫剂、氨基酸、工业品等）,开展了氯化和氯胺化培养生成典型消毒副产物的实验,目的是通过对水中脲类除草剂、嗪类除草剂和其他含氮化合物培养生成不同消毒副产物的生成量,讨论不同种类含氮化合物生成含碳和含氮消毒副产物规律以及考察不同消毒副产物的可能前体物.研究发现,脲类除草...     

饮用水中典型微生物消毒过程中消毒副产物的生成规律

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.     

铜均相和非均相催化氯化消毒反应研究

在不同的入水pH值条件下,考察了铜离子存在时的均相情况和铜氧化物存在时的非均相情况下,水中余氯的分解和消毒副产物的生成规律.结果表明,与不含铜的情况相比,铜的存在,无论是均相还是非均相,对余氯的分解均有促进作用.不同的pH值条件下,铜均相和非均相对挥发性氯化消毒副产物三卤甲烷(THMs)的生成和非挥发性氯化消毒副产物二氯乙酸(DCAA)和三氯乙酸(TCAA)生成的影响不同,这主要是由于pH值影响了水中可溶性铜离子的浓度造成的.随着pH值的升高,在铜均相和非均相催化下,水中可溶性铜离子的浓度均降低.可溶性铜离子的浓度会影响水中消毒副产物的生成.对于挥发性氯化消毒副产物THMs来说,当铜离子浓度小于2.5 mg·L-1时,随着铜离子浓度增加,对THMs生成的促进作用加强;当铜离子浓度大于2.5 mg·L-1后,对THMs生成的促进作用减弱;对于非挥发性氯化消毒副产物DCAA和TCAA,随着铜离子浓度增加,DCAA的生成量逐渐增加,TCAA的生成量逐渐减少.     

Zebrafish embryo toxicity of 15 chlorinated, brominated, and iodinated disinfection by-products

Disinfection to protect human health occurs at drinking water and wastewater facilities through application of non-selective oxidants including chlorine. Oxidants also transform organic material and form disinfection by-products (DBPs), many of which are halogenated and cyto- and genotoxic. Only a handful of assays have been used to compare DBP toxicity, and researchers are unsure which DBP(s) drive the increased cancer risk associated with drinking chlorinated water. The most extensive data set employs an in vitro model cell, Chinese hamster ovary cells. Traditionally, most DBP research focuses on the threat to human health, but the effects on aquatic species exposed to DBPs in wastewater effluents remain ill defined. We present the developmental toxicity for 15 DBPs and a chlorinated wastewater to a model aquatic vertebrate, zebrafish. Mono-halogenated DBPs followed the in vivo toxicity rank order: acetamides > acetic acids > acetonitriles ~ nitrosamines, which agrees well with previously published mammalian in vitro data. Di- and tri-halogenated acetonitriles were more toxic than their mono-halogenated analogues, and bromine- and iodine-substituted DBPs tended to be more toxic than chlorinated analogues. No zebrafish development effects were observed after exposure to undiluted or non-concentrated, chlorinated wastewater. We find zebrafish development to be a viable in vivo alternative or confirmatory assay to mammalian in vitro cell assays.     

铸铁还原氯乙酸的影响因素与机制研究

氯乙酸是地表水与饮用水中一种常见的微量氯代有机污染,具有致癌性,浓度较高时对人体健康会产生一定的危害.为了更经济地去除水体中的氯乙酸,研究了铸铁废料去除氯乙酸的可行性,讨论了铁类型、预处理方法,振荡方式以及溶解氧等条件对还原效果的影响.结果表明传质过程比铁类型与酸处理对氯乙酸还原速率的影响更大.铸铁无氧去除三氯乙酸(TCAA)的主要产物为二氯乙酸(DCAA)而有氧存在时为一氯乙酸(MCAA).在纵向翻转下铸铁对氯乙酸的去除过程符合伪一级动力学,TCAA、DCAA与MCAA的无氧速率常数分别为0.46 h-1、0.03 h-1与0,有氧速率常数依次为1.24 h-1、0.79 h-1与0.28 h-1.不同氧含量环境中铸铁对氯乙酸的去除机制不同,无氧时为连续氢解,有氧时可能包括连续氢解与直接转化过程.     

Formation potentials of typical DBPs and changes of genotoxicity for chlorinated tertiary effluent pretreated by ozone

The effects of ozonation on the formation potential of typical disinfection byproducts (DBPs) and the changes of genotoxicity during post chlorination of tertiary effluent from a sewage treatment plant were investigated. Ozonation enhanced the yields of all detected chlorine DBPs except CHCl3. At a chlorine dose of 5 mg/L, the three brominated THMs and five HAAs increased, while chloroform decreased with the increase of ozone dose from 0 to 10 mg/L (ozone dose in consumption base). At a chlorine dose of 10 mg/L, the two mixed bromochloro species THMs and two dominant HAAs (DCAA and TCAA) firstly increased and then decreased with the increase of ozone dose, with the turning point approximately occurring at an ozone dose of 5 mg/L. The genotoxicity detected using umu test, on the other hand, was removed from 7 μg 4-NQO/L to a negligible level by ozonation under an ozone dose of 5 mg/L. Chlorination could further remove the genotoxicity to some extent. It was found that SUVA (UV absorbance divided by DOC concentration) might be used as an indicative parameter for monitoring the removal of genotoxicity during the oxidation.     

Formation potentials of typical disinfection byproducts and changes of genotoxicity for chlorinated tertiary e uent pretreated by ozone

The effects of ozonation on the formation potential of typical disinfection byproducts (DBPs) and the changes of genotoxicity during post chlorination of tertiary effluent from a sewage treatment plant were investigated. Ozonation enhanced the yields of all detected chlorine DBPs except CHCl3. At a chlorine dose of 5 mg/L, the three brominated THMs and five HAAs increased, while chloroform decreased with the increase of ozone dose from 0 to 10 mg/L (ozone dose in consumption base). At a chlorine dose of 10 mg/L, the two mixed bromochloro species THMs and two dominant HAAs (DCAA and TCAA) firstly increased and then decreased with the increase of ozone dose, with the turning point approximately occurring at an ozone dose of 5 mg/L. The genotoxicity detected using umu test, on the other hand, was removed from 7 μg 4-NQO/L to a negligible level by ozonation under an ozone dose of 5 mg/L. Chlorination could further remove the genotoxicity to some extent. It was found that SUVA (UV absorbance divided by DOC concentration) might be used as an indicative parameter for monitoring the removal of genotoxicity during the oxidation.     

加氯消毒过程中纯细菌物质生成消毒副产物研究

按照UFC方法对水体中3种常见细菌Acinetobacter junii、Staphylococcussciuri和Escherichia coli进行纯细菌加氯消毒处理,同时考察水中溴离子对纯细菌物质生成DBPs的影响.结果表明,3种细菌均为DBPs前体物,加氯消毒生成的DBPs除水合三氯乙醛(CHD)外,生成的三卤甲烷(THMs)物质主要为氯仿(TCM),卤乙腈(HANs)物质主要为二氯乙腈(DCAN).氯仿的生成量与细菌物质TOC浓度无明显关系,但HANs和CHD生成量均随细菌TOC浓度增大而增加.其中革兰氏阳性细菌Staphylococcus sciuri生成的DCAN和CHD比革兰氏阴性细菌Acinetobacter junii和Escherichia coli生成的要高,说明细胞壁的化学组分可能是DCAN和CHD生成的影响因素之一.Escherichia coli细菌反应液中溴离子(Br-)存在时,除生成CHD、TCM及DCAN外,THMs和HANs中的溴代种类CHBr3随Br-增多而持续增加,相反TCM持续减少.当Br-浓度为4mg.L-1时,TBM浓度增至最高127.9μg.L-1;HANs和CHD生成量随Br-浓度增加先有所增加,随后持续降低至低于检测限;Br离子存在时THMs为主要DBPs种类.     

Formation of disinfection byproducts in typical Chinese drinking water

Eight typical drinking water supplies in China were selected in this study. Both source and tap water were used to investigate the occurrence of chlorinated disinfection byproducts (DBPs), and seasonal variation in the concentrations of trihalomethanes (THMs) of seven water sources was compared. The results showed that the pollution level for source water in China, as shown by DBP formation potential, was low. The most encountered DBPs were chloroform, dichloroacetic acid, trichloroacetic acid, and chlorodibromoacetic acid. The concentration of every THMs and haloacetic acid (HAA) compound was under the limit of standards for drinking water quality. The highest total THMs concentrations were detected in spring.     

南水北调丹江口水库水氯(胺)化消毒副产物产生特性与消毒工艺对比

系统研究了南水北调中线工程水源——丹江口水库水在氯(胺)化消毒条件下,常规消毒副产物的产生特性,考察了消毒方式、消毒剂投加量、接触时间、p H和溴离子浓度等因素的影响,并对消毒工艺参数进行了优化.结果发现,丹江口水库水经氯化消毒可产生三氯甲烷、二氯一溴甲烷等常规含碳和较低浓度二氯乙腈、三氯硝基甲烷等含氮消毒副产物,而氯胺化消毒仅产生三氯甲烷和三氯硝基甲烷等消毒副产物(disinfection by-products,DBPs).自由氯消毒过程产生的各类型DBPs浓度约为氯胺消毒的7.5倍,短时自由氯转氯胺方式DBPs产生量介于两者之间;随着自由氯投加量增加,各类型消毒副产物均呈现增加趋势,投加量大于2 mg·L-1后DBPs增加量较少.随氯胺投加量增加,三氯甲烷生成量变化不大,投加量大于2mg·L-1后可产生三氯硝基甲烷等副产物.随反应时间延长,自由氯的衰减速率明显大于氯胺,同时消毒副产物增长量明显快于氯胺消毒.随着p H升高,自由氯消毒后三卤甲烷含量呈现增加趋势,而氯胺消毒后变化不明显.随溴离子浓度的增加,自由氯和氯胺消毒后副产物类型均向溴代DBPs转变,同时总生成量明显增加,自由氯消毒DBPs增长量明显大于氯胺消毒过程.丹江口水库水采用氯胺化消毒可以降低消毒副产物的生成风险,如采用自由氯消毒方式,水厂需根据实际常规处理工艺重点控制自由氯的投加量等参数.     

高锰酸钾预氧化对剑水蚤DBPsFP的去除特征研究

以剑水蚤为试验对象,研究在不同条件下,高锰酸钾预氧化对剑水蚤代谢产物在氯化消毒过程中消毒副产物前体物的去除特征.研究表明:随高锰酸钾投加量的增加,水合氯醛(CH)、1,1,1-三氯丙酮(1,1,1-TCP)、三氯甲烷(TCM)总体呈上升趋势,二氯乙酸(DCAA)逐渐减少,而三氯硝基甲(TCNM)、1,1-二氯丙酮(1,1-DCP)、二氯乙腈(DCAN)和三氯乙酸(TCAA)先上升后下降,在本试验高锰酸钾投量范围内,高锰酸钾浓度为5mg/L时 CH、TCNM、DCAN、TCAN、DCAA、TCAA和1,1-DCP的去除效果最佳,去除率最高可达72.2%;延长预氧化时间,DCAN、DCAA、TCAA浓度逐渐降低,TCM、CH浓度逐渐升高,TCNM、TCAN、1,1,1-TCP浓度先升高后降低,而1,1-DCP浓度先迅速下降后逐渐升高,预氧化时间宜控制在20min;pH<7可有效抑制TCM的生成.pH=7时TCAA达到最小值,而1,1-DCP含量最高,pH>7有助于1,1-DCP的减少,CH、DCAA、DCAN、TCAN、TCNM和1,1,1-TCP随pH的增加而减少.在pH=9时生成量均最小, 最高去除率为80%;最佳温度为30℃,随着温度的升高,DCAA、TCAA和TCM浓度有所增加,1,1-DCP、DCAN和1,1,1-TCP生成量减少,在20℃时,CH的浓度最小,而TCAN的浓度最大.     

Nontargeted identification of peptides and disinfection byproducts in water

A broad range of organic compounds are known to exist in drinking water sources and serve as precursors of disinfection byproducts(DBPs).Epidemiological findings of an association of increased risk of bladder cancer with the consumption of chlorinated water has resulted in health concerns about DBPs.Peptides are thought to be an important category of DBP precursors in water.However,little is known about the actual presence of peptides and their DBPs in drinking water because of their high sample complexity and low concentrations.To address this challenge and identify peptides and non-chlorinated/chlorinated peptide DBPs from large sets of organic compounds in water,we developed a novel high throughput analysis strategy,which integrated multiple solid phase extraction(SPE),high performance liquid chromatography(HPLC)separation,and non-target identification using precursor ion exclusion(PIE)high resolution mass spectrometry(MS).After MS analysis,structures of candidate compounds,particularly peptides,were obtained by searching against the Human Metabolome Database(HMDB).Using this strategy,we successfully detected 625 peptides(out of 17,205 putative compounds)and 617 peptides(out of 13,297)respectively in source and finished water samples.The source and finished water samples had 501 peptides and amino acids in common.The remaining 116 peptides and amino acids were unique to the finished water.From a subset of 30 putative compounds for which standards were available,25 were confirmed using HPLC-MS analysis.By analyzing the peptides identified in source and finished water,we successfully confirmed three disinfection reaction pathways that convert peptides into toxic DBPs.     

高锰酸盐复合药剂预氧化对摇蚊幼虫DBPsFP的去除控制研究

以花翅摇蚊幼虫为试验对象,研究高锰酸盐复合药剂预氧化对摇蚊幼虫代谢产物在氯化消毒过程中消毒副产物前体物的去除控制.研究表明:在p H由5升高到9时,三氯乙酸(TCAA)与二氯乙酸(DCAA)的浓度呈逐渐减少趋势;p H由5升高到7时,三氯甲烷(TCM)和三氯乙腈(TCAN)的浓度减幅最大,1,1-二氯丙酮(1,1-DCP)和1,1,1-三氯丙酮(1,1,1-TCP)则在p H为8时浓度达到最低值;随着药剂投加量的增加,TCM呈现出持续稳定增长趋势,DCAA呈总体下降趋势,而TCAN、1,1-DCP、1,1,1-TCP和TCAA则先增加后减少,高锰酸盐的投加量为3mg·L-1时,消毒副产物去除效果显著;延长预反应时间,TCM呈总体上升趋势,1,1-DCP、DCAA、TCAA呈下降趋势,TCAN、1,1,1-TCP呈先增加后减少的趋势,综合考虑最佳预氧化时间为30 min;投加混凝剂能够有效控制消毒副产物前体物的生成,随着混凝剂的不断增加,TCM、1,1,1-TCP呈先增加后减少的趋势,TCAN、1,1-DCP、DCAA、TCAA浓度则逐渐降低,在投量为40 mg·L-1时,达到最低值.     

Impact of pre-oxidation on the formation of byproducts in algae-laden water disinfection: Insights from fluorescent and molecular weight

Pre-oxidation has been reported to be an effective way to remove algal cells in water, but the released algal organic matter (AOM) could be oxidized and lead to the increment in disinfection by-product (DBP) formation. The relationship between pre-oxidation and AOM-derived DBP formation needs to be approached more precisely. This study compared the impact of four pre-oxidants, ozone (O₃), chlorine dioxide (ClO₂), potassium permanganate (KMnO₄) and sodium hypochlorite (NaClO), on the formation of nitrogenous (N-) and carbonaceous (C-) DBPs in AOM chlorination. The characterization (fluorescent properties, molecular weight distribution and amino acids concentration) on AOM samples showed that the characterization properties variations after pre-oxidation were highly dependent on the oxidizing ability of oxidants. The disinfection experiments showed that O₃ increased DBP formation most significantly, which was consistent with the result of characterization properties variations. Then canonical correspondent analysis (CCA) and Pearson's correlation analysis were conducted based on the characterization data and DBP formation. CCA indicated that C-DBPs formation was highly dependent on fluorescent data. The formation of haloacetic acids (HAAs) had a positive correlation with aromatic protein-like component while trichloromethane (TCM) had a positive correlation with fulvic acid-like component. Pearson's correlation analysis showed that low molecular weight fractions were favorable to form N-DBPs. Therefore, characterization data could provide the advantages in the control of DBP formation, which further revealed that KMnO₄ and ClO₂ were better options for removing algal cells as well as limiting DBP formation.     

Characteristics of molecular weight distribution of dissolved organic matter in bromide-containing water and disinfection by-product formation properties during treatment processes

The characteristics of dissolved organic matter (DOM) and bromide ion concentration have a significant influence on the formation of disinfection by-products (DBPs). In order to identify the main DBP precursors, DOM was divided into five fractions based on molecular weight (MW), trihalomethane formation potential and haloacetic acid formation potential were determined for fractions, and the change in contents of different fractions and total DBPs during treatment processes (pre-chlorination, coagulation, sand filtration, disinfection) were studied. Moreover, the relationship between bromide concentration and DBP generation characteristics in processes was also analyzed. The results showed that the main DBP precursors were the fraction with MW < 1 kDa and fraction with MW 3−10 kDa, and the DBP''s generation ability of lower molecular weight DOM (< 10 kDa) was higher than that of higher molecular weight DOM. During different processes, pre-chlorination and disinfection had limited effect on removing organics but could alter the MW distribution, and coagulation and filtration could effectively remove organics with higher MW. For DBPs, trihalomethanes (THMs) were mainly generated in pre-chlorination and disinfection, while haloacetic acids (HAAs) were mostly generated during pre-chlorination; coagulation and sand filtration had little effect on THMs but resulted in a slight removal of HAAs. In addition, the results of ANOVA tests suggested that molecular sizes and treatment processes have significant influence on DBP formation. With increasing bromide concentration, the brominated DBPs significantly increased, but the bromine incorporation factor in the processes was basically consistent at each concentration.