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研究了海水淡化低温多效蒸馏(LT-MED)工艺沿程水质和溴代消毒副产物(Br-DBPs)变化特征.LT-MED工艺进水海水的Br-浓度和比紫外吸收值(SUVA)分别为54.6 mg·L~(-1)和1.7 L·(mg·m)-1,其荧光特征有机物主要有色氨酸类芳香族蛋白质、富里酸类有机物和溶解性微生物代谢产物.进水海水经Na Cl O消毒后,DBPs的种类和浓度显著增加,且增加的主要为Br-DBPs,三溴甲烷(CHBr3)占总三卤甲烷(THMs)的100%;一溴乙酸(C2H3Br O2)和二溴乙酸(C2H2Br2O2)分别占总卤乙酸(HAAs)的31.9%和68.1%;四溴苯酚(C6H5Br O)占总卤代酚(HPs)的100%.LT-MED海水淡化产品水中THMs、HAAs和HPs均未检出,但是其浓水中的THMs、HAAs和HPs浓度分别为56.9、35.0和0.1μg·L~(-1). 相似文献
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氯消毒广泛应用于海水利用的预处理过程中,以减少生物膜淤积,而消毒过程会导致各类消毒副产物(DBPs)的生成,可能会对海洋生态环境具有潜在危害。系统研究了操作条件和水质对海水氯化消毒过程中生成三卤甲烷(THMs)、卤乙腈(HANs)和卤乙酸(HAAs)的影响。结果表明,氯投加量对DBPs生成的影响最大,随着投氯量的增加,THMs、HANs和HAAs的生成量显著增加,在反应初期随反应时间的延长而增加,随后HANs和HAAs的生成量开始缓慢降低而THMs基本保持不变。随着温度升高,THMs的生成量稳步增加,而HAAs和HANs在分别达到30,25℃后生成量达到最大值,之后随温度的升高而降低。p H对THMs、HANs和HAAs生成的影响相反,在酸性条件下HANs和HAAs的生成量最多,而在碱性条件下THMs的生成量最多。THMs、HANs和HAAs的生成量随溴离子浓度的改变无明显变化,但是随着氨氮浓度的升高,THMs、HANs和HAAs的生成种类和生成量均有明显降低。 相似文献
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以陆生来源有机物为原料制备了模拟氯、氯胺消毒饮用水,系统研究了煮沸对六大类46种消毒副产物(disinfection by-products, DBPs)的去除规律.结果显示,相比氯消毒,氯胺消毒可有效减少三卤甲烷(THMs)、卤乙酸(HAAs)、卤乙醛(HALs)、卤代硝基甲烷(HNMs)、卤乙腈(HANs)等DBPs的生成,但会提高碘代DBPs (I-DBPs)、卤乙酰胺(HAcAms)的生成.煮沸对于绝大多数DBPs (除了二卤乙酸)有良好的去除效果,并发现如下规律:(1)就单种DBP而言,消毒方式对煮沸去除DBPs并无显著影响;(2)在同类型的DBPs中,取代程度高的DBPs普遍比取代程度低的DBPs容易去除;(3)取代程度相同的同类型DBPs,煮沸后DBPs去除率大部分遵循I-DBPs> Br-DBPs> Cl-DBPs的规律;(4)少部分DBPs (如Cl/Br-THMs、二卤乙腈),煮沸去除率表现出沸点或亨利常数依赖性.总体来看,DBPs去除率排序为THMs≈HANs≈HALs≈HNMs> HAcAms>>HAAs.此外,煮沸后各类DBPs的... 相似文献
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底泥、土壤均是水体有机物的重要来源,但目前相关消毒副产物(DBPs)形成方面的研究偏少.本研究以长三角重要水源地太湖、钱塘江取水口的底泥和周边土壤的浸出液为研究对象,探索氯、臭氧+氯、氯胺、臭氧+氯胺4种消毒方式下,三卤甲烷(THMs)、卤代酮(HKs)、卤乙腈(HANs)、卤代硝基甲烷(HNMs)的形成情况.结果表明,太湖、钱塘江取水口的底泥、周边土壤有机物的芳香度均很低(SUVA254(即比紫外吸光值)2),与腐殖质(Sigma)相比,底泥、土壤有机物不是氯消毒中THMs的重要前驱物,但却是HANs特别是HNMs的重要前驱物.相比氯消毒,氯胺消毒能大幅降低土壤、底泥有机物THMs、HKs、HANs、HNMs的生成量,而且也可抑制含溴DBPs的形成.臭氧预处理大幅提高了氯、氯胺消毒中HKs、HNMs的产量,但对THMs、HANs则不一定.太湖、钱塘江的土壤、底泥存在一定的溴污染,但不管是哪种消毒方式,均是HNMs的溴嵌入因子最大. 相似文献
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以钱江源水源水为研究对象,以氯、氯胺为消毒方式,研究了不同消毒条件下,三卤甲烷(THMs)、卤乙腈(HANs)、氯代酮(CKs)、二卤乙酸(DHAAs)、三卤乙酸(THAAs)等消毒副产物(DBPs)的形成情况,以便为水务工作者监测钱江源建库前后水质、DBPs形成的变化提供基础数据.结果显示,氯消毒下DBPs的产量比氯胺消毒高出3~7倍甚至1个数量级,但不管是氯消毒还是氯胺消毒,THMs、HAAs形成量均在我国饮用水标准范围内.氯消毒下,大部分DBPs产量为中、碱性条件酸性条件(除了CKs),氯胺消毒则呈现不同的情况(所有DBPs的产量均为p H=6、p H=7p H=8).消毒剂量对所有DBPs形成具有明显的促进作用;溴离子对THMs、DHANs、DHAAs的形成有明显的促进作用.进一步研究表明,钱江源水源水的水质比钱塘江下游九溪水源水好,DBPs形成也较低,某些指标(如有机碳、有机氮、HANs形成量等)甚至比同省水质较好的金兰水库还要好;而且由于其较高的比紫外吸收值(SUVA),DBPs的溴嵌入能力均比九溪水源水、金兰水库低.此外,就目前的钱江源水源水来说,控制消毒剂量(氯、或氯胺)是控制DBPs形成的有效策略. 相似文献
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本文研究了在pH 6~8、反应时间2~72 h、反应温度10~30℃条件下,钱塘江水源水在臭氧-氯消毒联合作用下,三卤甲烷(THMs)、二卤乙酸(DHAAs)、三卤乙酸(THAAs)、二卤乙腈(HANs)、三卤硝基甲烷(THNMs)等5类消毒副产物(DBPs)的形成和溴取代特征.结果显示,臭氧-氯消毒下DBPs的形成与氯消毒有较多相似之处:①大部分DBPs形成量均随着温度的升高、时间的延长而增加,相应的溴取代因子(BSFs)则随着时间的延长、温度的上升而呈下降趋势;②氯代DHANs倾向于在酸性条件下形成多,而溴代DHANs则倾向于在碱性条件下形成多;③不管是氯消毒还是臭氧-氯消毒,也不管是哪种消毒条件,5类DBPs的BSF值顺序均为BSF_(HNMs)BSF_(DHANs) BSF_(THAAs)BSF_(THMs)≈BSF_(DHAAs).但与氯消毒不同的是,臭氧-氯消毒下THMs、DHAAs、THAAs、HANs的形成产量更低,而THNMs的产量则更高;而且与氯消毒相比,臭氧-氯消毒普遍增加了DBPs的溴取代程度,也改变了溴离子在不同DBPs之间的分配,即减少了THMs、DHAAs、THAAs、DHANs对溴的利用率,但大幅增加了HNMs的溴利用率.鉴于溴代HNMs的极高毒性,因此对于钱塘江水源水,臭氧-氯消毒要注意HNMs带来的健康风险. 相似文献
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浙江省H市供水系统消毒副产物及其健康风险评价 总被引:1,自引:1,他引:0
以浙江省H市供水系统为调查对象,采用配有电子捕获器的气相色谱(GC-ECD)检测2座水厂及相应供水管网中18种消毒副产物(DBPs)的含量,深入探讨了DBPs导致的饮用水健康风险及前体物指标与各类DBPs的相关性.结果发现H市饮用水中检出三卤甲烷(THMs)、卤乙酸(HAAs)、卤乙腈(HANs)和三氯硝基甲烷(HNMs)等类消毒副产物,THMs含量最高,HAAs次之.CX水厂出水和供水管网中THMs分别为7. 70~32. 73μg·L~(-1)和9. 00~51. 42μg·L~(-1),HAAs分别为3. 05~21. 30μg·L~(-1)和6. 00~26. 79μg·L~(-1). TH水厂出水和供水管网中THMs分别为8. 65~38. 76μg·L~(-1)和12. 09~42. 04μg·L~(-1),HAAs分别为2. 42~14. 79μg·L~(-1)和2. 80~33. 40μg·L~(-1),2家水厂出厂水和供水管网中消毒副产物浓度均符合《生活饮用水卫生标准》(GB 5749-2006).采用溶解性有机碳(DOC)和UV254表征水样有机物,分析有机物与DBPs的相关性,发现管网水中三氯甲烷(TCM)与DOC和UV254呈显著负相关性.基于EPA推荐的健康风险评价模型对经口摄取途径时氯消毒副产物的致癌和非致癌风险进行计算,发现H市出厂水和管网水中消毒副产物引起的致癌风险分别为5. 94×10-6~4. 76×10-5和5. 94×10-6~5. 56×10-5,非致癌风险分别为0. 91×10-2~4. 20×10-2和1. 26×10-2~4. 72×10-2.致癌风险主要来自THMs,一溴二氯甲烷(BDCM)贡献了最高的致癌风险,非致癌风险主要来自TCM. 相似文献
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供水管网终端消毒副产物分布特征及预测模型 总被引:1,自引:1,他引:0
消毒副产物(disinfection by-products, DBPs)是影响饮用水水质的重要指标.以浙江省H市某区域供水点为调查目标,考察终端龙头水及加热器处理后饮用水中DBPs的含量特征,结合水质理化指标,初步确定管网终端DBPs预测模型,评估经口摄入的健康风险.结果表明,H市某供水点龙头水中共检出THMs、HANs和HAAs这3类共计10种DBPs.龙头水中目标DBPs检出率均为100%,THMs、HANs和HAAs质量浓度分别为10.12~28.39、 0.98~5.19和2.65~7.83μg·L~(-1);热水中TBM、TCAN和DBAN的检出率分别为46.43%、 82.14%和92.86%,BCAN未检出,其它DBPs检出率为100%,THMs、HANs和HAAs质量浓度分别为0.60~12.58、 0.02~0.52和2.42~5.86μg·L~(-1).加热处理后THMs和HANs的含量有所降低,总量分别降低84.22%和91.45%,HAAs变化不明显.水质理化指标pH值和SUVA与DBPs呈正相关关系,余氯和氨氮与DBPs呈负相关关系.根据常规指标与DBPs相关性建立THMs多元线性预测模型,相对误差小于10.00%,准确度较高,可用于管网供水终端THMs的预测.基于美国环保署推荐的健康风险评价模型对经口摄取途径时氯消毒副产物的致癌和非致癌风险进行计算,发现H市龙头水和热水中DBPs通过饮水途径的致癌风险分别为(17.24~84.63)×10~(-6)和(25.49~258.82)×10~(-7);非致癌风险分别为(4.17~50.32)×10~(-2)和(6.52~107.74)×10~(-3).龙头水中BDCM对致癌风险的贡献率最大,而热水系统中TCM贡献率最大;龙头水及热水中非致癌风险主要来自于TCM.热水中THMs的削减量最高达到94.38%,致癌风险降低79.00%. 相似文献
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铜绿微囊藻胞内物消毒副产物生成:氯化和溴化比较 总被引:4,自引:3,他引:1
为了研究蓝藻水华期间释放的有机物给原水水质及给水处理过程带来的影响,选取优势藻种铜绿微囊藻的胞内物质(IOM)作为前驱体,分析了其结构特征.此外,分别研究了IOM在pH 6.5、7.1及8.4条件下与氯及溴反应后性质的变化及消毒副产物的生成,并进行了相关性分析.结果表明,IOM中以相对分子质量较大的组分(>30×103)为主,其溶解性有机碳(DOC)含量占总量的68.8%.三维荧光光谱(EEM)的结果表明IOM的成分主要以芳香蛋白类物质为主,其单位DOC的荧光强度为92.6 AU·L·mg-1.与氯或溴反应后,芳香蛋白类EEM峰值下降了76.6%~93.3%,且其降低值与三卤甲烷(THMs,R2=0.81)和卤乙酸(HAAs,R2=0.77)的生成量正相关.IOM与氯或溴反应生成的THMs和HAAs浓度均随着pH的增加而增加.溴相比氯与IOM反应可以生成更多的THMs和HAAs,且HAAs的卤代程度更高,但是氯及溴与IOM反应能力的差异随着pH的升高而逐渐减小,即k OBr·IOM/k OCl·IOM相似文献
11.
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. 相似文献
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Algal blooms and wastewater effluents can introduce algal organic matter (AOM) and effluent organic matter (EfOM) into surface waters, respectively. In this study, the impact of bromide and iodide on the formation of halogenated disinfection byproducts (DBPs) during chlorination and chloramination from various types of dissolved organic matter (DOM, e.g., natural organic matter (NOM), AOM, and EfOM) were investigated based on the data collected from literature. In general, higher formation of trihalomethanes (THMs) and haloacetic acids (HAAs) was observed in NOM than AOM and EfOM, indicating high reactivities of phenolic moieties with both chlorine and monochloramine. The formation of haloacetaldehydes (HALs), haloacetonitriles (HANs) and haloacetamides (HAMs) was much lower than THMs and HAAs. Increasing initial bromide concentrations increased the formation of THMs, HAAs, HANs, and HAMs, but not HALs. Bromine substitution factor (BSF) values of DBPs formed in chlorination decreased as specific ultraviolet absorbance (SUVA) increased. AOM favored the formation of iodinated THMs (I-THMs) during chloramination using preformed chloramines and chlorination-chloramination processes. Increasing prechlorination time can reduce the I-THM concentrations because of the conversion of iodide to iodate, but this increased the formation of chlorinated and brominated DBPs. In an analogous way, iodine substitution factor (ISF) values of I-THMs formed in chloramination decreased as SUVA values of DOM increased. Compared to chlorination, the formation of noniodinated DBPs is low in chloramination. 相似文献
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为探究饮用水处理过程中臭氧(O_3)对生物活性炭(BAC)中微生物及出水消毒副产物(DBPs)的影响,以饮用水小试装置的O_3-BAC工段开展研究,系统分析在不同O_3浓度下的水质变化,溶解性有机物(DOM)特征,微生物活性和DBPs产生情况.结果表明,O_3对BAC过滤的影响主要表现为提升微生物对DOM的利用效率,但O_3浓度过高会导致出水中蛋白质和微生物代谢产物(SMPs)等有机物增加.当O_3浓度从0 mg·L~(-1)提升到2. 0 mg·L~(-1)时,BAC中微生物存活率从95. 10%降至62. 60%,但O_3将出水中难降解有机物转变为易生物降解物质,使得微生物活性提高了62. 52%,BAC的生物过滤得到强化;当O_3浓度增加到4. 0 mg·L~(-1)时,微生物存活率降至49. 90%,同时微生物产生的蛋白质和SMPs增加,导致含碳消毒副产物(CDBPs)和含氮消毒副产物(N-DBPs)的生成浓度与不通O_3相比分别上升41. 93%和7. 18%,大大增加水体潜在危险.综上,合适O_3浓度有利于O_3-BAC对DOM的去除,O_3浓度过高会导致BAC过滤效果变差并产生新的DBPs前体物. 相似文献
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稻田有机肥输入会使田面水含有含量的溶解性有机碳(DOC).溶解性有机物(DOM)是具有三致效应的消毒副产物(DBPs)的前体物,而DOC是用于表征DOM浓度的一个指标.本研究旨在评估水稻田田面水的三卤甲烷(THMs)前体物的生成反应性,解析猪粪有机肥对于THMs前体物从水稻田输出的潜在影响.于水稻种植季选取4个猪粪施用梯度(以C计,下同)(0[对照],714.1[低],1428.2[中]与2142.3[高]kg·hm-2),检测了稻田田面水中的DOC,UVA254与三卤甲烷生成潜能(THMFP).结果表明,3个指标两两之间呈线性相关性.田面水中以上3个指标都与有机肥施用量呈正相关性.在施肥后的7d内,DOC的输出潜能降低了32.9%至47.5%.有机肥施用与预期的降雨或灌溉之间的时间间隔相隔一周以上,将能在满足作物营养需求的条件下降低消毒副产物前体物输出的风险,使稻田土壤成为DOC的汇而非DOC输出至周边水体的源. 相似文献
15.
三峡库区水体中可溶性C、N变化及影响因素 总被引:3,自引:3,他引:0
为了解三峡库区水体中可溶性C、N的变化,本研究于2011年3月至2012年8月在三峡水库涪陵段进行了每周一次的水样采集,分析其中可溶性C、N成分的变化及其来源特征.结果表明,库区水中DOC浓度范围为0.64~9.07 mg·L~(-1),且有明显的季节变化,表现为:夏季春季、秋季冬季,DOC年入库总量为1.78×109kg,入库量具有与浓度相似的季节变化趋势;DTN的浓度范围为2.59~4.35 mg·L~(-1),春季冬季夏季秋季,年入库总量为1.32×109kg,入库量的季节变化特征:夏季秋季春季冬季,其中DON、NO-3-N分别占DTN的30.35%~63.45%、35.87%~67.72%.DOC受降水和温度的影响明显,水中DOC主要来自外源输入,春季、夏季降雨径流其外源输入量增加,而秋季、冬季则内源贡献有所增加;DTN受人为排放和水体稀释的影响相对较大.相关分析表明,DOC与DON呈显著负相关(P0.05),通常以DOC/DON比值反映水中DOM的来源,库区DOC/DON范围为0.35~7.28,DOM来源具有明显的季节特征.夏季DOC/DON较高,DOM主要来自流域侵蚀;冬季DOC/DON较低,DOM主要来自生活污水排放和内源现场产生;春季、秋季DOC/DON介于两者之间,DOM来源包括流域侵蚀、生活污水排放及现场产生等. 相似文献
16.
Jillian N. Murakami Xu Zhang Joanne Ye Amy M. MacDonal Jorge Pérez David W. Kinniburgh Susana Y. Kimura 《环境科学学报(英文版)》2022,34(7):209-221
Water disinfection is an essential process that provides safe water by inactivating pathogens that cause waterborne diseases. However, disinfectants react with organic matter naturally present in water, leading to the formation of disinfection by-products (DBPs). Multi-analyte methods based on mass spectrometry (MS) are preferred to quantify multiple DBP classes at once however, most require extensive sample pre-treatment and significant resources. In this study, two analytical methods were developed for the quantification of 32 regulated and unregulated DBPs. A purge and trap (P&T) coupled with gas chromatography mass spectrometry (GC-MS) method was optimized that automated sample pre-treatment and analyzed volatile and semi-volatile compounds, including trihalomethanes (THMs), iodinated trihalomethanes (I-THMs), haloacetonitriles (HANs), haloketones (HKTs) and halonitromethanes (HNMs). LOQs were between 0.02-0.4 µg/L for most DBPs except for 8 analytes that were in the low µg/L range. A second method with liquid chromatography (LC) tandem mass spectrometry (MS/MS) was developed for the quantification of 10 haloacetic acids (HAAs) with a simple clean-up and direct injection. The LC-MS/MS direct injection method has the lowest detection limits reported (0.2-0.5 µg/L). Both methods have a simple sample pre-treatment, which make it possible for routine analysis. Hyperchlorination and uniform formation conditions (UFC) formation potential tests with chlorine were evaluated with water samples containing high and low TOC. Hyperchlorination formation potential test maximized THMs and HAAs while UFC maximized HANs. Ascorbic acid was found to be an appropriate quencher for both analytical methods. Disinfected drinking water from four water utilities in Alberta, Canada were also evaluated. 相似文献
17.
Haiting Zhang Huiyu Dong Craig Adams Zhimin Qiang Gang Luan Lei Wang 《环境科学学报(英文版)》2015,27(7):116-124
The chemistry associated with the disinfection of aquarium seawater is more complicated than that of freshwater, therefore limited information is available on the formation and speciation of disinfection byproducts(DBPs) in marine aquaria. In this study, the effects of organic precursors, bromide(Br-) and pre-ozonation on the formation and speciation of several typical classes of DBPs, including trihalomethanes(THM4), haloacetic acids(HAAs),iodinated trihalomethanes(I-THMs), and haloacetamides(HAc Ams), were investigated during the chlorination/chloramination of aquarium seawater. Results indicate that with an increase in dissolved organic carbon concentration from 4.5 to 9.4 mg/L, the concentrations of THM4 and HAAs increased by 3.2–7.8 times under chlorination and by 1.1–2.3 times under chloramination. An increase in Br-concentration from 3 to 68 mg/L generally enhanced the formation of THM4, I-THMs and HAc Ams and increased the bromine substitution factors of all studied DBPs as well, whereas it impacted insignificantly on the yield of HAAs. Pre-ozonation with 1 mg/L O3 dose substantially reduced the formation of all studied DBPs in the subsequent chlorination and I-THMs in the subsequent chloramination. Because chloramination produces much lower amounts of DBPs than chlorination, it tends to be more suitable for disinfection of aquarium seawater. 相似文献