全球饮用水标准中消毒副产物管控指标对比与启示

饮用水水质安全是关乎千家万户的重大民生问题,其中消毒工艺是保障饮用水微生物安全不可或缺的重要措施,然而由消毒剂与前体物反应生成的DBPs（消毒副产物）被发现具有潜在的健康风险,如致癌及引起发育副作用等.随着对饮用水中DBPs的重视程度不断提高,世界上多个国家、地区或组织将DBPs指标纳入标准.为对我国饮用水水质标准中DBPs指标的制定和修订提出可参考的建议,比较了国内外饮用水和再生水饮用回用水质标准中的DBPs指标,包括DBPs种类、对应的浓度限值和监测要求等.结果表明:①我国饮用水水质标准中涵盖的DBPs种类较多,其中地方标准相较于国标而言对DBPs指标的要求更为严格,但较少考虑综合性指标（如总有机卤素）和高毒性含氮DBPs（如卤乙腈）;②国外多部饮用水水质标准或准则中包含一些无浓度限值规定但已知具有较高健康风险的DBPs,此举可指导有关部门进一步开展浓度调研和毒性试验,为未来水质标准的制定提供参考依据.研究显示,我国饮用水标准中DBPs指标需要考虑综合性指标的选取与管控以及高风险指标的甄别和筛查,另外还需因地制宜加强地方性标准的建设工作.      

二氧化氯消毒无机消毒副产物控制技术进展研究

日常生活、生产中,饮用水消毒剂受到广泛关注.中国《生活饮用水卫生标准》(GB 5749-2006)规定二氧化氯可作为饮用水消毒剂,但其在消毒过程中所产生的无机消毒副产物,对人类健康存在潜在的危害.随着检测和控制技术水平的发展,对饮用水中无机消毒副产物的研究已成为热点.文章参考大量文献,对饮用水中无机消毒副产物的控制技术进行了详细讨论.     

反渗透技术对消毒副产物的去除效果、机理及影响因素研究进展

反渗透(RO)技术因操作简便、无药剂添加等特点,被广泛应用于管网末端痕量污染物的去除. 为深入理解RO技术在去除饮用水中消毒副产物(DBP)的应用,总结了近20年来RO截留DBPs的效果、机理、影响因素及工艺. 结果表明:①空间位阻效应是RO膜去除DBPs的主要作用机制,静电排斥效应对带电小分子DBPs的去除更加明显. ② RO膜对疏水性DBPs也具有一定的吸附截留作用,适当提高pH、操作压力或膜改性(如使膜孔变小或增强膜的亲水性)能增强DBPs的去除,但升高温度不利于DBPs去除. ③在一定范围内DBPs浓度变化(0~200 μg/L)对RO膜截留影响不明显,目前尚存争议的是水中离子浓度和膜老化对RO膜截留的影响及各种RO工艺的优选. 建议未来深入探究DBPs在RO工艺中的吸附和穿透行为及规律,并致力于开发净水能力更强且更节能省水的RO工艺.      

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.     

杭州市水源切换对饮用水中DBPs分布影响及其健康风险评价

千岛湖配水工程改善了杭州市的供水水质,水源由钱塘江为主转变为千岛湖外调水源为主.以供水管网末端龙头为调查对象,考察了水源切换前后饮用水中消毒副产物(disinfection by-products,DBPs)的构成特征,并对DBPs存在水平的致癌和非致癌风险进行了对比分析.结果表明供水管网终端龙头水在水源切换后水质明显...     

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.     

城市饮用水消毒副产物及前体物的处理技术

介绍了饮用水中消毒副产物的前体物的控制和消除的策略与处理工艺,消毒副产物的前体物处理技术及近年发展起来的饮用水生物处理技术及其发展前景.     

消毒副产物暴露的最佳生物标记物

<正>当我们饮用含氯的水或者用之洗澡时,可能会暴露于消毒副产物(DBPs)中,它由水中的有机质与含氯或其他水处理物质反应生成.一些人类流行病学研究发现,高浓度DBPs暴露与癌症和生殖效应等风险的增加相关.但是科学     

联邦德国水质标准简介

对用作饮用水源的地表水,为了达到饮用水水质标准,联邦德国对该地表水的消毒作了详细的规定,最通常用的方法是用氯或二氧化氯消毒,但当水中存在可被氧化的物质阻碍消毒时,由于消毒剂又是氧化剂与该物质反应,而使其浓度不足以破坏微生物或使病毒失灵,为了充分克服这种危险,联邦饮用水法规中规定:采用氯、次氯酸钠、次氯酸镁、次氯酸钙或漂白粉对饮用水进行消毒.     

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。     

Disinfection by-product (DBP) research in China: Are we on the track?

Disinfection by-products (DBPs) formed during water disinfection has drawn significant public concern due to its toxicity. Since the first discovery of the trihalomethanes in 1974, continued effort has been devoted on DBPs worldwide to investigate the formation mechanism, levels, toxicity and control measures in drinking water. This review summarizes the main achievements on DBP research in China, which included: (1) the investigation of known DBP occurrence in drinking water of China; (2) the enhanced removal of DBP precursor by water treatment process; (3) the disinfection optimization to minimize DBP formation; and (4) the identification of unknown DBPs in drinking water. Although the research of DBPs in China cover the whole formation process of DBPs, there is still a challenge in effectively controlling the drinking water quality risk induced by DBPs, an integrated research framework including chemistry, toxicology, engineering, and epidemiology is especially crucial.     

饮用水消毒技术发展趋势的文献计量学分析

消毒过程是饮用水安全保障研究的热点,本文采用文献计量学的方法对2000—2012年间的学术论文和发明专利进行了分析,明确了全球在饮用水消毒领域的研究动态和趋势以及我国存在的主要差距.结果表明全球对该领域研究的关注度持续增加,其研究热点主要集中在消毒技术工艺和消毒副产物两方面,其中氯化、臭氧氧化、氯化消毒副产物是近十余年的关注焦点.美国和瑞士作为本领域研究的主要领先国家分别在文章产出量和研究水平上位列第一,值得注意的是瑞士在本领域的研究偏重于高级氧化技术和新型消毒副产物.我国的发文量仅次于美国而专利申请量仅次于日本,但研究水平远落后于世界领先国家.我国的研究工作主要集中在氯氧化消毒工艺和常规消毒副产物生成与控制,原创性研究有待加强.本研究对明确我国饮用水消毒技术的发展趋势和研究人员选题具有重要意义.     

Disinfection byproduct regulatory compliance surrogates and bromide-associated risk

Natural and anthropogenic factors can alter bromide concentrations in drinking water sources. Increasing source water bromide concentrations increases the formation and alters the speciation of disinfection byproducts (DBPs) formed during drinking water treatment. Brominated DBPs are more toxic than their chlorinated analogs, and thus have a greater impact on human health. However, DBPs are regulated based on the mass sum of DBPs within a given class (e.g., trihalomethanes and haloacetic acids), not based on species-specific risk or extent of bromine incorporation. The regulated surrogate measures are intended to protect against not only the species they directly represent, but also against unregulated DBPs that are not routinely measured. Surrogates that do not incorporate effects of increasing bromide may not adequately capture human health risk associated with drinking water when source water bromide is elevated. The present study analyzes trihalomethanes (THMs), measured as TTHM, with varying source water bromide concentrations, and assesses its correlation with brominated THM, TTHM risk and species-specific THM concentrations and associated risk. Alternative potential surrogates are evaluated to assess their ability to capture THM risk under different source water bromide concentration conditions. The results of the present study indicate that TTHM does not adequately capture risk of the regulated species when source water bromide concentrations are elevated, and thus would also likely be an inadequate surrogate for many unregulated brominated species. Alternative surrogate measures, including THM3 and the bromodichloromethane concentration, are more robust surrogates for species-specific THM risk at varying source water bromide concentrations.     

控制饮用水消毒副产物的研究状况与评述

论文简述了科学界对饮水消毒副产物问题的认识过程，对当前控制消毒副产物的主要途径和主要研究成果进行了综合评述。     

Identification of unknown disinfection byproducts in drinking water produced from Taihu Lake source water

Although disinfection byproducts(DBPs) in drinking water have been suggested as a cancer causing factor, the causative compounds have not yet been clarified. In this study, we used liquid chromatography quadrupole-time-of-flight spectrometry(LC-QTOF MS) to identify the unknown disinfection byproducts(DBPs) in drinking water produced from Taihu Lake source water, which is known as a convergence point for the anthropogenic pollutants discharged from intensive industrial activities in the surroundi...     

再生水消毒副产物的检测、生成与控制

在水资源紧缺的当下,污水再生利用是一项重要的环保战略更是资源战略.消毒能有效杀灭病菌和阻断介水疾病的传播,是保障再生水用水安全的重要手段.然而,消毒剂会不可避免地与水中有机物发生反应形成具有毒害效应的消毒副产物.围绕污水在再生消毒过程中所产生的消毒副产物,针对其检测识别方法、生成条件（前体物、消毒工艺及水质条件对消毒副产物生成的影响）以及控制方法（源头控制、过程控制及末端控制）进行综述.在此基础上,对再生水消毒副产物的未来研究动态进行了探讨,可为保障再生水的安全利用提供依据.     

TIC-Tox: A preliminary discussion on identifying the forcing agents of DBP-mediated toxicity of disinfected water

The disinfection of drinking water is a major public health achievement; however, an unintended consequence of disinfection is the generation of disinfection by-products (DBPs). Many of the identified DBPs exhibit in vitro and in vivo toxicity, generate a diversity of adverse biological effects, and may be hazards to the public health and the environment. Only a few DBPs are regulated by several national and international agencies and it is not clear if these regulated DBPs are the forcing agents that drive the observed toxicity and their associated health effects. In this study, we combine analytical chemical and biological data to resolve the forcing agents associated with mammalian cell cytotoxicity of drinking water samples from three cities. These data suggest that the trihalomethanes (THMs) and haloacetic acids may be a small component of the overall cytotoxicity of the organic material isolated from disinfected drinking water. Chemical classes of nitrogen-containing DBPs, such as the haloacetonitriles and haloacetamides, appear to be the major forcing agents of toxicity in these samples. These findings may have important implications for the design of epidemiological studies that primarily rely on the levels of THMs to define DBP exposure among populations. The TIC-Tox approach constitutes a beginning step in the process of identifying the forcing agents of toxicity in disinfected water.     

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.