Progress in Analytical Methods of Halogenated Disinfection By-Products

Ensuring the health and safety of drinking water is crucial for both nations and their citizens.Since the 20th century,the disinfection of drinking water,effectively controlling pathogens in water sources,has become one of the significant advances in public health.However,the disinfectants used in the process,such as chlorine and chlorine dioxide,react with natural organic matter in the water to produce disinfection by-products(DBPs).Most of these DBPs contain chlorine,and if the source water contains bromine or iodine,brominated or iodinated DBPs,collectively referred to as Halogenated disinfection byproducts(X-DBPs),are formed.Numerous studies have found that X-DBPs pose potential risks to human health and the environment,leading to widespread concern.Mass spectrometry has become an important means of discovering new types of X-DBPs.This paper focuses on the study of methods for analyzing X-DBPs in drinking water using mass spectrometry.

Simultaneous Control of Microorganisms and Disinfection By-products by Sequential Chlorination

Objective To introduce a new sequential chlorination disinfection process in which short-term free chlorine and chloramine are sequentially added. Methods Pilot tests of this sequential chlorination were carried out in a drinking water plant. Results The sequential chlorination disinfection process had the same or better efficiency on microbe （including virus） inactivation compared with the free chlorine disinfection process. There seemed to be some synergetic disinfection effect between free chlorine and monochloramine because they attacked different targets. The sequential chlorination disinfection process resulted in 35.7%-77.0% TTHM formation and 36.6%-54.8% THAA5 formation less than the free chlorination process. The poorer the water quality was, the more advantage the sequential chlorination disinfection had over the free chlorination. Conclusion This process takes advantages of free chlorine＇s quick inactivation of microorganisms and chloramine＇s low disinfection by-product （DBP） yield and long-term residual effect, allowing simultaneous control of microbes and DBPs in an effective and economic way.

Removal of disinfection by-products formation potential by biologically intensified process

The removal of disinfection by-products formation potential(DBPFP) in artificially intensified biological activated carbon(IBAC) process which is developed on the basis of traditional ozone granular activated carbon was evaluated. By IBAC removals of 31% and 68% for THMFP and HAAFP were obtained respectively. Under identical conditions, the removals of the same substances were 4% and 32% respectively only by the granular activated carbon(GAC) process. Compared with GAC, the high removal rates of the two formed potential substances were due to the increasing of bioactivity of the media and the synergistic capabilities of biological degradation cooperating with activated carbon adsorption of organic compounds. A clear linear correlation(R 2=0.9562 and R 2=0.9007) between DOC HAAFP removal rate and Empty Bed Contact Time(EBCT) of IBAC process was observed, while that between THMFP removal rate and EBCT of GAC was R 2=0.9782. In addition certain linear correlations between THMFP, HAAFP and UV 254 (R 2=0.855 and R 2=0.7702) were found for the treated water. For IBAC process there are also more advantages such as long backwashing cycle time, low backwashing intensity and prolonging activated carbon lifetime and so on.

Removal characteristics of disinfection by-products formation potential by bioaugmentation activated carbon process

The high-active bacteria were screened from 8 dominant bacteria obtained from the natural water body,and then the bioaugmentation activated carbon was formed by hydraulic immobilization of the high-active bacteria. Plant-scale studies on removal characteristics of disinfection by-products formation potentials (DBPFP) by bioaugmentation activated carbon process were conducted for micro-polluted raw water treatment. The results show that the bioaugmentation activated carbon process has adopted better purification efficiency to THMFP and HAAFP than traditional biological activated carbon process,and that average removal efficiencies of THMFP and HAAFP can reach 35% and 39.7% during the test period,increasing by more than 10% compared with traditional biological activated carbon process. The removal efficiencies of THMFP and HAAFP are stable because of the biodegradation of the high-active bacteria and the adsorption of active carbon. The biodegradability of CHCl3 formation potential is better as compared with that of CHCl2Br and CHClBr2 formation potentials among THMFP,and high removal efficiency of CHCl3formation potential is obtained by bioaugmentation degradation of the high-active bacteria. The biodegradability of HAAFP is better in comparison with that of THMFP,and the chemical properties of HAAFP are propitious to adsorption of activated carbon. Thus,HAAFP is on predominance during the competitive removal process with THMFP.

我国典型水源地N-DBPs生成势及生态风险评价

随着含氮消毒副产物(N-DBPs)的基因毒性和细胞毒性受到重视,饮用水中的N-DBPs产生和生态风险的研究成为近年的关注热点。文章基于前人研究分析,研究了我国典型水源地中N-DBPs生成势的空间分布特征,采用风险熵值法,对我国典型水源地N-DBPs的潜在生成生态风险进行了评估,还关注了有机物指标与N-DBPs生成势之间的关系。结果表明:DON与N-DBPs生成势的分布特点均存在地域差异,总体表现为在东部沿海城市呈现南北高、中部低、东部地区高于其他地区、经济发达地区高于其他地区、珠三角地区高于其他地区的特点。结合生态风险的评价方法,利用现有数据进行初步估计,发现部分城市水源地生态风险呈现低风险,水库水源N-DBPs的生态风险一般高于河流水源。UV_(254)与N-DBPs生成势相关性较好,可以作为N-DBPs生成势的替代性指标。研究结果将为做好我国水源地的修复与保护、保障居民饮水安全提供重要的支撑。

Characterization of dissolved organic matter fractions and its relationship with the disinfection by-product formation

Dissolved organic matter （DOM） has been identified as precursor for disinfection by-products （DBPs） formation during chlorination. Recently, it has been demonstrated that the characteristics of DOM influence the DBPs formation mechanism. A study was, therefore, initiated to investigate the effects of DOM fractions on DBPs formation mechanism. In the chlorination process, organic acids are dominant precursors of total thihalomethanes （TTHM） because of the vc-o and unsaturated structures. Furthermore, the TTHM formation of organic acids was affected by pH more greatly. Based on the fluorescence spectroscopy analysis, DOM fractions contained several fluorescence substances. During chlorination, humic acid-like substances were found to exhibit high chlorine reactivity and hydrophobic organics decomposed to smaller molecules faster than hydrophilic organics even at lower chlorine dosages. Unlike hydrophobic fractions, hydrophilic organics showed no toxicity following chlorination, suggesting that the toxic structures in hydrophihc organics showed high chlorine reactivity during chlorination.

Health Risk Assessment of Employees Exposed to Chlorination By-products of Recreational Water in Large Amusement Parks in Shanghai

Objective Chlorination is often used to disinfect recreational water in large amusement parks;however,the health hazards of chlorination disinfection by-products(DBPs)to occupational populations are unknown.This study aimed to assess the exposure status of chlorinated DBPs in recreational water and the health risks to employees of large amusement parks.Methods Exposure parameters of employees of three large amusement parks in Shanghai were investigated using a questionnaire.Seven typical chlorinated DBPs in recreational water and spray samples were quantified by gas chromatography,and the health risks to amusement park employees exposed to chlorinated DBPs were evaluated according to the WHO's risk assessment framework.Results Trichloroacetic acid,dibromochloromethane,bromodichloromethane,and dichloroacetic acid were detected predominantly in recreational water.The carcinogenic and non-carcinogenic risks of the five DBPs did not exceed the risk thresholds.In addition,the carcinogenic and non-carcinogenic risks of mixed exposure to DBPs were within the acceptable risk limits.Conclusion Typical DBPs were widely detected in recreational water collected from three large amusement parks in Shanghai;however,the health risks of DBPs and their mixtures were within acceptable limits.

饮用水新型N-DBPs类别及毒理学评价

基于国外最新文献,系统划分了新近发现的饮用水含氮消毒副产物(N-DBPs),包括卤代乙腈(HANs)、亚硝胺(以亚硝基二甲胺为代表,简称NDMA)和卤代硝基甲烷(HNMs)三大类物质。详细归纳了各N-DBPs的毒理性质,并将N-DBPs的慢性细胞毒性、急性遗传毒性以及致癌性与三卤甲烷(THMs)和卤乙酸(HAAs)等饮用水常见DBPs进行对比,发现HANs和HNMs的慢性细胞毒性以及急性遗传毒性均远高于HAAs,NDMA的致癌性也远高于THMs和HAAs,饮用水N-DBPs亟待进一步研究。最后展望了今后的研究方向。

饮用水氯消毒生成DBPs的影响因素及其控制工艺

阐述了饮用水消毒副产物(DBPs)产生的影响因素,分析了天然有机物(NOM)、温度、pH、接触时间、氯用量和余氯浓度等各种因素对产生DBPs种类和数量的影响,提出了控制DBPs应从去除其前体物NOM,改变消毒工艺或采用新的消毒剂以及去除已生成的DBPs三方面入手。

自来水中消毒副产物(DBPs)变化规律研究

液氯消毒工艺在制水生产中产生的DBPs一直是研究关注的重点。分别在夏季丰水期和冬季枯水期,对重庆市某常规加氯消毒工艺水厂出厂水的DBPs浓度变化进行监控研究。结果表明:冬季出厂水中DBPs浓度较低,无饮水风险;夏季二氯甲烷和三氯甲烷会随着清水池中水力停留时间的延长逐渐超标,分别在反应0.5 d和1.5 d达到峰值0.049 3 mg/L和0.079 2 mg/L。同时分析了不同气温和原水水质条件下,出厂水余氯值与TOC、高锰酸盐指数和菌落总数之间的变化关系。建议夏季丰水期该水厂采用二氧化氯消毒工艺,或可降低DBPs的产生。

蓝藻AOM特征与DBPs生成关系的研究进展

蓝藻水华期间,藻细胞因自然生长或受水处理工艺影响(如预氧化和混凝),会向水中释放大量藻源有机物(AOM),能够与氯消毒剂反应生成大量消毒副产物(DBPs),增加了饮用水安全风险.了解AOM的特征及其对DBPs生成的影响对于AOM的控制和饮用水安全保障至关重要.本文综述了蓝藻AOM的主要理化特征(溶解性有机碳、溶解性有机氮、亲疏水性、光学特性、分子量、化学结构)及其对饮用水处理过程中AOM的削减转化规律和DBPs生成的影响,并讨论了AOM前体表征技术在蓝藻水处理过程中追踪AOM变化和预测DBPs的应用前景,最后展望了未来的研究方向.

Waste Water Disinfection During SARS Epidemic for Microbiological and Toxicological Control

Objective To evaluate the disinfection of wastewater in China. Methods During the SARS epidemic occurred in Beijing, a study of different disinfection methods used in the main local wastewater plants including means of chlorine, chlorine dioxide, ozone, and ultraviolet was carried out in our laboratory. The residual coliform, bacteria and trihalomethanes, haloacetic acids were determined after disinfection. Results Chlorine had fairly better efficiency on microorganism inactivation than chlorine dioxide with the same dosage. Formation of THMs and HAAs does not exceed the drinking water standard. UV irradiation had good efficiency on microorganism inactivation and good future of application in China. Organic material and ammonia nitrogen was found to be significant on inactivation and DBPs formation. Conclusion Chlorine disinfection seems to be the best available technology for coliform and bacteria inactivation. And it is of fairly low toxicological hazard due to the transformation of monochloramine.

预氧化与混凝对水源水中DBPsFP的协同去除规律

以水库水为研究对象,研究不同条件下,预氧化与混凝对天然水库水氯化消毒过程中消毒副产物前体物(DBPsFP)的协同控制效果.结果表明,随着高锰酸钾投量的增加,三氯甲烷(TCM)、三氯丙酮(1,1,1-TCP)、二氯乙酸(DCAA)和三氯乙酸(TCAA)的质量浓度逐渐下降,二氯丙酮(1,1-DCP)、二氯乙腈(DCAN)的质量浓度先下降后上升,在高锰酸钾投加量为4 mg/L时处理效果最好;随着预氧化时间的延长,1,1-DCP、DCAN、TCM、DCAA和TCAA的质量浓度逐渐下降、1,1,1-TCP的质量浓度逐渐上升,综合分析,预氧化40 min时处理效果最好;在pH值从5增加到9时,1,1-DCP、1,1,1-TCP、DCAN、DCAA和TCAA的质量浓度逐渐下降,TCM的质量浓度先降低后升高;随着温度的升高,TCM、1,1,1-TCP、DCAA和TCAA的质量浓度逐渐上升,1,1-DCP和DCAN的质量浓度先升高后降低.

Disinfection of swimming pools with chlorine and derivatives: formation of organochlorinated and organobrominated compounds and exposure of pool personnel and swimmers

Chlorination of pool water leads to the forma-tion of many by-products, chloroform usually being the most abundant. The paper reports the results of a study evaluating exposure of bath-ers and pool employees to trihalomethanes (chloroform, bromodichloromethane, dibromo-chloromethane, bromoform) in four indoor swimming pools with chlorinated water. Chlo-roform concentrations in environmental air samples when the pool was in use (about 9 h), in the range 1-182 μg/m3, were greater near the pool than in the change rooms, passageways and offices. Chloroform concentrations in per-sonal air samples of pool employees were in the range 18-138 μg/m3. Urinary concentrations of chloroform averaged (geometric means) 0.123 and 0.165 μg/l and 0.404 and 0.342 μg/l prior and at the end of exposure during in water and out of water activities, respectively. The significant increase in urinary excretion of chloroform confirms that the source of the contaminant was pool water. Absorption of chloroform, estimated from airborne and water concentrations, was significantly correlated with delta chloroform (after/before exposure) and urinary concentra-tions of chloroform at the end of exposure. As chloroform is a toxic and possibly carcinogenic substance, these observations pose a problem principally for the general population of pool users.

活性炭吸附去除水中高毒性N-DBPs卤代乙酰胺

卤代乙酰胺(haloacetamides,HAMS)是一类具有高毒性的含氮消毒副产物。文中探索用活性炭吸附方法去除饮用水中的HAMs,考察了50目活性炭在不同吸附条件下的吸附性能与吸附动力学。结果表明,随着pH值的增大,HAMs去除率升高,碱性时HAMs的去除主要归因于自身水解和吸附的双重作用。通过拟合Langmuir和Freundlich等温线模型得到50目活性炭对二氯乙酰胺(dichloroacetamide,DCAM)、一溴乙酰胺(bromoacetamicde,BCAM)、二溴乙酰胺(dibromoacetamide,DBAM)和三氯乙酰胺(trichloroacetamide,TCAM)的最大吸附能力分别为61.50、54.98、87.20 mg/g和76.88 mg/g;活性炭吸附4种HAMs均符合假一级去除动力学,且拟合相关系数均高于0.98。DCAM、BCAM、DBAM和TCAM的吸附去除动力学常数分别为0.044、0.051、0.059 h^-1和0.061 h^-1,显示了通过活性炭24 h吸附处理,能使4种HAMs降至较低浓度。4种HAMs的去除速率由大到小为TCAM>DBAM>BCAM>DCAM。

Less pressure contributes to gravity-driven membrane ultrafiltration with greater performance:Enhanced driving efficiency and reduced disinfection by-products formation potential

Gravity-driven membrane(GDM)systems have been well developed previously;however,impacts of driving(i.e.,transmembrane)pressure on their performance received little attention,which may infuence GDM performance.In this study,we evaluated 4 GDM systems via altering the transmembrane pressure from 50 mbar to 150 mbar with 2 groups,treating surface water in Beijing,China.Results showed that less driving pressure was more favorable.Specifically,compared to groups(150 mbar),groups under a pressure of 50 mbar were found to have greater normalized permeability and lower total resistance.During the whole operation period,the quality of effuents was gradually improved.For example,the removal efficiency of UV254was significantly improved;particularly,under low driving pressure,the removal efficiency of UV254in PES GDM system increased by 11.91%,as compared to the corresponding system under high driving pressure.This observation was consistent with the reduction on disinfection by-products(DBPs)formation potential;groups under 50 mbar achieved better DBPs potential control,indicating the advantages of lower driving pressure.Biofilms were analyzed and responsible for these differences,and distinct distributions of bacteria communities of two GDM systems under 50 and 150 mbar may be responsible for various humic-like substances removal efficiency.Overall,GDM systems under less pressure should be considered and expected to provide suggestions on the design of GDM systems in real applications.

Concentration levels of disinfection by-products in 14 swimming pools of China

Swimming has become a popular exercising and recreational activity in China but little is known about the disinfection by-products （DBPs） concentration levels in the pools. This study was conducted as a survey of the DBPs in China swimming pools, and to establish the correlations between the DBP concentrations and the pool water quality parameters. A total of 14 public indoor and outdoor pools in Beijing were included in the survey. Results showed that the median concentrations for total tfihalomethanes （TTHM）, nine haloacetic acids （HAA9）, chloral hydrate （CH）, four haloacetonitriles （HAN4）, 1,1- dichloropropanone, 1,1,1-trichloropropanone and trichlor- onitromethane were 33.8, 109.1, 30.1, 3.2, 0.3, 0.6 pg＇L-1 and below detection limit, respectively. The TTHM and HAA9 levels were in the same magnitude of that in many regions of the world. The levels of CH and nitrogenous DBPs were greatly higher than and were comparable to that in typical drinking water, respectively. Disinfection by chlorine dioxide or trichloroisocyanuric acid could sub- stantially lower the DBP levels. The outdoor pools had higher TTHM and HAA9 levels, but lower trihaloacetic acids （THAA） levels than the indoor pools. The TTHM and HAA9 concentrations could be moderately correlated with the free chlorine and total chlorine residuals but not with the total organic carbon （TOC） contents. When the DBP concentration levels from other survey studies were also included for statistical analysis, a good correlation could be established between the TTHM levels and the TOC concentration. The influence of chlorine residual on DBP levels could also be significant.

强化絮凝去除水中 DBP 先质研究(Ⅰ)

分析探讨了水中ＤＢＰ的产生、消除方法及去除ＤＢＰ先质的絮凝机理，认为在传统水净化工艺中，通过强化絮凝可进一步去除水中的ＤＢＰ先质．实验研究了强化絮凝条件下，去除水中腐殖酸类有机质的适宜操作控制条件，求得了该条件下的最优ｐＨ值及最佳投药量．

Alternate disinfection approaches or raise disinfectant dosages for sewage treatment plants to address the COVID-19 pandemic?From disinfection efficiency,DBP formation,and toxicity perspectives

During the COVID-19 pandemic,most sewage treatment plants increased disinfectant dosages to inactivate pathogenic viruses and microorganisms more effectively.However,this approach also led to the production of more disinfection by-products(DBPs).To ensure both disinfection efficiency and a reduction in DBP formation,new disinfection protocols are required.In this study,the disinfection efficiency,DBP amounts,and toxicity changes resulting from ozone(O_(3)),ultraviolet(UV),chlorine(Cl_(2)),and their combined processes were examined.The results demonstrated that the O_(3)/UV/Cl_(2)combination achieved the highest disinfection efficiency.Chlorination produced the most DBPs,whereas UV treatment reduced the formation of trihalomethane(THM),halogenated ketones(HKs),haloacetic acids(HAA),dichloroacetonitrile(DCAN)and N-nitrosodimethylamine(NDMA)by 45.9%,52.6%,82.0%,67.95%,and 47%,respectively.O_(3)also significantly reduced their production by 99.1%,91.1%,99.5%,100%,and 35%.Intracellular organic matter(IOM)was identified as the primary DBP precursors,producing 2.94 times more DBPs than extracellular organic matter(EOM).The increased DBP formation during chlorination was attributed to IOM leakage and cell membrane damage,which was verified using scanning electron microscopy(SEM).The toxicities of DBPs were evaluated for six disinfection methods,revealing inconsistent results.The overall toxicities were assessed using zebrafish embryo experiments.Both evaluations indicated that chlorination alone was the least favorable method.In addition,the toxicities followed a sequence:Cl_(2)≈O_(3)/Cl_(2)>O_(3)>O_(3)/UV/Cl_(2)>UV>UV/Cl_(2).These findings can serve as a reference for sewage treatment plants in selecting appropriate disinfection methods to manage the COVID-19 epidemic from comprehensive perspective.

Research progress of disinfection and disinfection by-products in China

Disinfection is an indispensable water treatment process for killing harmful pathogens and protecting human health. However, the disinfection has caused significant public concern due to the formation of toxic disinfection by-products(DBPs). Lots of studies on disinfection and DBPs have been performed in the world since 1974. Although related studies in China started in1980 s, a great progress has been achieved during the last three decades. Therefore, this review summarized the main achievements on disinfection and DPBs studies in China, which included:(1) the occurrence of DBPs in water of China,(2) the identification and detection methods of DBPs,(3) the formation mechanisms of DBPs during disinfection process,(4) the toxicological effects and epidemiological surveys of DBPs,(5) the control and management countermeasures of DBPs in water disinfection, and(6) the challenges and chances of DBPs studies in future. It is expected that this review would provide useful information and reference for optimizing disinfection process, reducing DBPs formation and protecting human health.