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1.
污水中溶解性有机物组分特性及其氯消毒副产物生成潜能   总被引:15,自引:8,他引:7  
以城市污水厂二级出水为研究对象,采用大孔吸附树脂将污水中溶解性有机物分离成亲水性物质、疏水酸性物质、疏水中性物质和疏水碱性物质4个组分,分析了各组分的有机物特性、三维荧光光谱特征和氯消毒副产物生成潜能.结果表明,亲水性物质和疏水酸性物质分别占水样中溶解性有机碳的33%和30%,其中亲水性物质相对含有较多的生物源腐殖质类物质,疏水酸性物质相对含有更多的芳香族蛋白质和溶解性微生物代谢产物类物质.氯消毒后,亲水性物质的三卤甲烷生成潜能分别为630.4μg.L-1,占污水三卤甲烷生成潜能的73.7%.亲水性物质和疏水酸性物质的卤乙酸生成潜能分别为644.6μg.L-1和123.2μg.L-1,是污水氯消毒副产物的主要前体物.  相似文献   

2.
水源水中有机物特性及其氯化活性研究   总被引:19,自引:0,他引:19       下载免费PDF全文
以西南某市一个地表水为水源水的M水厂为研究对象,对其原水中有机物进行富集,有机物按照操作定义分为6个部分,分别为:亲水性有机酸、亲水性有机碱、亲水中性物质、疏水性有机酸、疏水性有机碱和疏水性物质,通过富集、确定了原水中6种有机物的组成分布,研究各种有机物的消毒副产物形成潜力以及替代剂(氯胺、二氧化氯)对卤乙酸形成的影响,提出了控制消毒副产物的主要对策,研究结果表明:1)M水厂水源水属于腐殖质含量的天然水体,受污染较小;2)原水溶解性有机物中疏水性有机酸是卤乙酸的主要前体物;3)用氯胺和二氧化氯代替传统的消毒剂作为替代消毒剂,可大大降低THMs和HAAs的生成量。  相似文献   

3.
以氯消毒工艺为核心,研究再生水厂出水中溶解性有机物(DOM)消毒前后化学特性的变化,利用XAD树脂,将再生水氯消毒前出水及不同消毒时间后出水中有机物分为4类:疏水中性有机物(HoN)、疏水碱性有机物(HoB)、弱疏水酸性有机物(WHoA)、亲水中性有机物(HiN),采用总有机碳、紫外分光光度和三维荧光光谱分析考察不同组分有机物的特性。结果表明:HoN和WHoA是氯化反应的主要反应组分。DOM组分的芳香性程度与参与氯化反应的活跃程度无线性关系。再生水厂出水DOM中主要以芳香性蛋白质和溶解性微生物代谢产物为主,氯消毒反应后,HoN、HiN、WHoA荧光强度均有增强,HoB荧光强度有所下降,但随着时间的延长,各类荧光物质荧光强度逐渐减弱。  相似文献   

4.
以取自南水北调中线工程的丹江口水库原水作为研究对象,考察了丹江口水库原水中有机物的分子量大小和亲疏水性分子组成规律,并确定了其所适用的强化混凝工艺条件.分离试验表明,丹江口原水中有机物主要以小分子量形式存在.其中,1 000组分的溶解性有机碳(DOC)和UV254所占比例最大,分别为39.98%和39.10%,且此区间还具有最高的三卤甲烷生成潜能(THMFP)和含氮消毒副产物生成潜能(N-DBPFP).亲疏水性方面,原水中弱疏水性组分含量最高,疏水性有机物的比例用DOC表征时超过80%.强疏水性组分含量最低但是强疏水性组分的THMFP最大,占总量的57.31%,而各组分的NDBPFP则相差不大.混凝试验表明,当采用聚合硫酸铁(PFS,4 mg·L-1)和聚丙烯酰胺(PAM,0.4 mg·L-1)处理丹江口原水时,强化混凝效果最好,可实现较为有效的去除浊度(76.33%)、DOC(25.57%)、UV254(37.78%)及THMFP(23.16%).本研究成果可为南水北调河南受水区既有水厂升级改造与工艺的优化运行提供有效的理论和技术支持.  相似文献   

5.
在对天然有机物分类的基础上进行了水体中有机物的特性研究,并采用氯胺对不同特性有机物的氯化消毒副产物进行了控制研究。结果表明,疏水酸占有机物总量的24%,疏水中性物质占41%,疏水性有机物占67%;对于三卤甲烷类消毒副产物生成势,疏水酸所产生的最多,疏水碱次之,亲水酸最少;对于卤乙酸类消毒副产物生成势,疏水碱产生的三卤乙酸最多,其次为疏水酸,亲水酸最少。氯胺对不同类有机物氯化消毒副产物控制程度不同,氯胺对疏水中性物质控制三卤甲烷类消毒副产物最好,其次是疏水碱和亲水碱;对疏水酸的三卤甲烷生成量控制较弱,对亲水酸的控制效果最差;氯胺对亲水碱氯化产生卤乙酸的控制效果最好,其次是疏水碱,控制效果最差的为疏水中性物质。  相似文献   

6.
黄飘怡  徐斌  郭东良 《环境科学》2018,39(3):1046-1052
以取自南水北调中线总干渠河南段沿线10个分水口门的原水为研究对象,探究了原水中有机物的相对分子质量分布和亲疏水性分布规律;并且研究了原水在氯化和氯胺化条件下消毒副产物生成潜能的变化规律.分离实验结果表明,南水北调沿程原水中的有机物以小分子和强疏水性为主,1×103区间的溶解性有机碳(DOC)所占的比例最大,质量分数约为57%,强疏水性组分的DOC含量最高,占到总量的50%左右;氯化及氯胺化消毒副产物生成潜能分析实验结果表明,氯化及氯胺化后主要生成了两种含碳消毒副产物(三氯甲烷和一溴二氯甲烷)和两种含氮消毒副产物(二氯乙腈和三氯硝基甲烷).氯化三氯甲烷生成潜能约为120μg·L-1,与氯化生成潜能相比,氯胺化三氯甲烷生成潜能减少了90%左右,一溴二氯甲烷减少了84.9%左右,生成的两种含氮消毒副产物增加了,其中二氯乙腈的生成量增加了约2.3倍,但总含氮消毒副产物生成潜能仍旧较低,均小于6μg·L-1.本研究成果可为南水北调中线工程河南段沿线城市的水厂工艺选择和优化提供有效的理论和技术支持.  相似文献   

7.
污水厂二级出水中THMs前体物卤代活性荧光光谱分析   总被引:4,自引:1,他引:3  
赵庆良  贾婷  魏亮亮  王琨  薛爽 《中国环境科学》2009,29(11):1164-1170
通过分析城市污水处理厂二级出水中溶解性有机物(DOM)及其XAD树脂分级组分的荧光光谱,研究了DOM的结构特性以及DOM中的THMs前体物在加氯消毒过程中的反应特性与荧光强度之间的相关性.三维荧光光谱显示DOM分级组分中均存在富里酸类、腐殖酸类、芳香性蛋白质类及微生物沥出物类荧光特征峰, 且以芳香性蛋白质类和富里酸类荧光物质为主.荧光光谱区域积分法(FRI)定量分析结果表明,4类荧光物质在DOM各分级组分中的累计荧光强度(ΦT,n)分布与其在二级出水中的分布趋势较相似,总体上呈现疏水性有机酸(HPO–A) >过渡亲水性有机酸 (TPI-A)>过渡性亲水性中性物质(TPI-N)>疏水性有机中性物质(HPO-N)>亲水性物质(HPI).此外,ΦT,n与单位浓度DOC在紫外254nm处的吸光度值(SUVA)及三氯甲烷生成活性(STHMFP)有较好的相关性,但与DOC相关性较差.同步荧光光谱结果表明,在单位DOC条件下,总DOM中稠环类芳香性物质的含量高于DOM各分级组分,而DOM各分级组分中稠环类芳香性物质的含量少于腐殖酸类物质的含量.  相似文献   

8.
分别采用分子量分级膜和XAD-8树脂,研究了污水厂二级出水中有机物分子量分布特征及不同分子量分布区间亲疏水有机物的相对含量,考察了分子量分布及亲疏水特性对纳滤膜透水性能的影响.结果表明,二级出水有机物中,小分子亲水性有机物含量最高,小于2k的有机物占总有机物含量的45.61%,其中亲水性物质占28.07%,疏水性物质占17.54%;不同特征的原水分别经纳滤膜过滤,分子量分布对膜污染影响较大,分子量小于30k时,分子量区间越小,比通量衰减越快,分子量大于30k时,分子量区间越大,比通量衰减越快,且分子量较小的有机物通量衰减程度大于分子量较大有机物;在分子量分布相同区间内,亲水性有机物的比通量衰减较慢,说明相同分子量时,膜对亲水性物质的截留率较低,而疏水性物质是引起膜通量衰减的主要原因.  相似文献   

9.
石化污水厂二级出水溶解性有机物分级解析研究   总被引:5,自引:0,他引:5  
以某石化污水处理厂二级出水为研究对象,采用大孔吸附树脂将污水中溶解性有机物分离成亲水性物质、疏水酸性物质、疏水中性物质和疏水碱性物质4个组分,分析了各组分的有机物的组成特征、三维荧光光谱特征及红外光谱特征.结果表明,亲水性物质和疏水酸性物质分别占水样中溶解性有机碳的49%和29%,是该石化污水厂二级出水中的主要物质类别.亲水性物质中含有较多的生物源腐殖质类物质,疏水中性物质含有较多的芳香族蛋白质和溶解性微生物代谢产物类物质.4种组分的红外光谱图中600~1200cm-1波数的指纹区波峰数量最多,多为芳香类同分异构体化合物.  相似文献   

10.
赵庆良  薛爽  王丽娜 《环境科学》2007,28(8):1726-1731
在实验室通过模拟土壤柱研究了人工地下水回灌过程中溶解性有机物的去除及其三卤甲烷生成势和三卤甲烷生成活性的变化.利用XAD树脂将回灌水中的溶解性有机物分为3个部分:疏水性有机酸、过渡亲水性有机酸和亲水性有机物.疏水性有机酸的三卤甲烷生成活性高于过渡亲水性有机酸和亲水性有机物.土壤含水层处理(SAT)对亲水性有机物的去除率为68.51%,对疏水性有机酸和过渡亲水性有机酸的去除率分别为58.64%和41.86%.经SAT系统处理后,溶解性有机物及各有机组分的三卤甲烷生成势减少,而三卤甲烷生成活性升高.疏水性有机酸是生成三卤甲烷的主要有机组分.亲水性有机物在SAT系统进水中的三卤甲烷生成活性较低,但由于含量高,三卤甲烷生成势也较大.而过渡亲水性有机酸由于含量和三卤甲烷生成活性较低,三卤甲烷生成势也较低.  相似文献   

11.
HPSEC-UV-TOC联用技术测定有机物相对分子质量分布   总被引:3,自引:2,他引:1       下载免费PDF全文
张晗  董秉直 《环境科学》2012,33(9):3144-3151
采用在线高效凝胶色谱仪(HPSEC)和紫外检测器以及TOC检测仪联用测定有机物相对分子质量分布.通过同步测定样品中大范围相对分子质量区间的UV254和TOC,更深入和准确地了解有机物的结构特性,特别是一些不含共轭双键和芳香度的有机物.结果显示,TOC检测仪能够简单快捷地检测出水中所有有机物的相对分子质量分布,包括蔗糖、海藻酸钠等对紫外响应较低的亲水性有机物;样品进样量与TOC响应线性正相关,进样量越大,响应越强;离子强度从0升至0.2mol.L-1,峰面积仅减小1.2%,离子强度对有机物相对分子质量分布测定影响较小;样品pH值在中性或酸性时不影响测定结果,pH值为碱性时,TOC响应异常;采用流动相配定的样品较超纯水配定的样品,相对分子质量分布曲线中干扰峰明显减小,出峰效果更好;该联用技术可以很好地表征湘江原水及其4种亲疏水性组分的相对分子质量分布.  相似文献   

12.
Abstract: Unlike natural organic matter(NOM), wastewater organic matter(WWOM) from wastewater treatment plant effluents has notbeen extensively studied with respect to complexation reactions with heavy metals such as copper or zinc. In this study, organic matter trom sunface waters and a wastewater treatment plant effluent were concentrated by reverse osmosis(FIC)) method. The samples were treated in the laboratory to remove trace metals and major cations. The zinc complexing properties of both NOM and the WVVOM were studied by square wave anodic stripping voltammetry(SWASV). Experimental data were compared to predictions using the Windermere Humic Aqueous Model(WHAM) Version Ⅵ. We found that the zinc binding of WVVOM was much stronger than that of NOM and not well predicted by WHAM.This suggests that in natural water boodies that receive wastewater teatment plant effluents the ratio of WWOM to NOM must be taken into account in order to accurately predict ferr zinc activities.  相似文献   

13.
湖泊沉积物中微生物群落对天然有机质输入的响应   总被引:2,自引:0,他引:2       下载免费PDF全文
居琪  章奇  曹驰程  白雷雷  张晖 《环境科学》2021,42(7):3263-3271
全球气候变化和蓝藻水华暴发造成湖泊生源、陆源天然有机质(NOM)输入显著增加,以太湖藻型湖湾为例,考察沉积物中微生物群落的活性、组成及功能对不同浓度藻源有机质(POM)和陆源腐殖酸(HA)的响应特征.三维荧光分析显示POM化学多样性较高,包含易降解的类蛋白(50%)和难降解的类腐殖质组分(50%),而类腐殖质占HA荧光组分的97%.两个月的微宇宙实验表明,对于同种NOM,沉积物中微生物矿化作用随NOM浓度升高而增强;但POM组中有机碳去除量显著高于同等浓度的HA组.胞外聚合物分析显示NOM输入有利于微生物分泌蛋白质和多糖,提高了微生物群落的聚集度和稳定性;酶活分析表明POM对脲酶、脱氢酶等有机物代谢酶的激发效应强于HA,形成了代谢更活跃的微生物群落.同时,NOM输入(尤其是POM)提高了微生物群落的物种多样性,增加了Proteobacteria和Bacteroidetes等参与有机物分解的菌群丰度,上调了与代谢相关的KEGG功能基因丰度.以上结果表明湖泊沉积物中微生物群落的活性和功能与NOM的来源和浓度有关.  相似文献   

14.
This work aims at characterizing organic matter produced by an alga Euglena gracilis and a cyanobacteria Microcystis aeruginosa and assessing the evolution of its characteristics during growth. A culture medium was optimized. The species growth phases were monitored using both visible spectrophotometry and flow cytometry cell counting. Organic matter fractionation according to hydrophobicity and specific UV absorbance (SUVA) index were used to specifically characterize the produced algal organic matter (AOM). The AOM characteristics were both growth phase and species dependent. However, a similar evolution was observed. The hydrophilic fraction (HPI) was the major fraction whatever the growth phases and was almost the only one produced during lag and exponential phases. It represented around 75% of AOM during exponential phase and then decreased when the stationary phase appeared. It represented 46% and 60% of the AOM during late decline phase for the cyanobacteria and the alga respectively. The hydrophobic (HPO) and transphilic (TPH) fractions started to appear from the beginning of the stationary phase with more hydrophobic compounds coming from intracellular organic material of dying cells. HPO and TPH percentages still increased during the decline phase probably because of two additional processes: photo-dissolution and leaching of particulate organic matter from cells fragments. A comparison of AOM during late decline phase and natural organic matter (NOM) from Glane River (France) underlined that AOM was more hydrophilic and presented a lower SUVA for each fractions than NOM. However, the difference between NOM and AOM hydrophobicity narrowed during decline phase.  相似文献   

15.
Systematic investigation on enhancing removal of natural organic matter (NOM) using inorganic polymer flocculant (IPF), polyaluminum chloride(PACI) and polyacrylamide(PAM) was performed in a typical south-China source water. Enhanced coagulation and applying polymer flocculant-aid were compared through jar tests and pilot tests. Raw water and settled water were characterized and fractionated by resin adsorption. The results show that DOC composes major part of TOC. The DOC distribution keeps relatively stable all around the year with typical high amounts of the hydrophilic matter around 50%. The distribution between HoB, HoA and HoN varies and undergoes fluctuation with the year round. During the summer season, the HoN becomes gradually the major part in hydrophobic parts. PACI with the species being tailor-made shows little pH effect during coagulation. The enhanced coagulation dosage for PACI could be 4.5 mg/L for the typical source water. The highest TOC removal achieved 31%. To be economically, 3 mg/L dose is the optimum dosage. Although hydrophilic fractions of NOM of both treatment strategies are removed about 30%, NOM causing UV254 absorbance were well removed(about 90%). Hydrophobic bases and acids fractions are much more removed under enhanced conditions. The hydrophilic fraction could be better removed using PAM, the polymer coagulant aid.  相似文献   

16.
郭璇  陈绍棋 《地球与环境》2017,45(5):515-522
以日本长良川原水为研究对象,提高水处理出水水质为目标,研究了生物活性炭(BAC)小柱对原水中天然有机物(NOM)的去除效果。比较了不同NOM进水浓度时BAC小柱对其的去除率,研究了小柱层内及出水中NOM的相对分子量分布随着通水时间增加的变化情况,并利用结合了理想吸附溶液理论(IAST)的平推流表面扩散模型对出水中NOM的浓度进行模拟。结果表明,BAC小柱对不同浓度原水中NOM的去除率均高于相同试验条件下的粒状活性炭(GAC)小柱;BAC小柱对相对分子量分布为1000~5200g/mol内各分子量区间的有机物均可去除;平推流表面扩散模型对试验数据拟合结果较好。  相似文献   

17.
活性炭深度处理工艺用于地下回灌的水质研究   总被引:3,自引:0,他引:3  
以北京高碑店污水处理厂二级生化出水为对象,研究了用于地下回灌的活性炭三级处理工艺。活性炭可有效降低DOC,UV-254和COD,部分去除可吸附有机卤化物(AOX)。再经过土壤含水层处理,约90%的可吸附有机溴化物(AOBr)可被去除。Ames试验结果显示活性炭工艺可有效降低二级生化出水中的致突物。GC/MS分析表明,活性炭吸附可降低有机物含量,再经土壤含水层处理,大部分有机物及优先控制的污染物可被去除。  相似文献   

18.
Endocrine disrupting chemicals (EDCs) in the secondary effluent discharged from wastewater treatment plants (WWTPs) are of great concern in the process of water reuse. Ozonation has been reported as a powerful oxidation technology to eliminate micropollutants in water treatment. Due to the complexity of the wastewater matrix, orthogonal experiments and single factor experiments were conducted to study the influence of operational parameters on the degradation of 17αup-ethinylestradiol (EE2) in the synthetic secondary effluent. The results of the orthogonal experiments indicated that the initial ozone and natural organic matter (NOM) concentration significantly affected EE2 degradation efficiency, which was further validated by the single factor confirmation experiments. EE2 was shown to be effectively degraded by ozonation in the conditions of low pH (6), NOM (10 mg/L), carbonate (50 mg/L), but high suspended solid (20 mg/L) and initial ozone concentration (9 mg/L). The study firstly revealed that the lower pH resulted in higher degradation of EE2 in the synthetic secondary effluent, which differed from EDCs ozonation behavior in pure water. EE2 degradation by ozone molecule instead of hydroxyl radical was proposed to play a key role in the degradation of EDCs by ozonation in the secondary effluent. The ratio between O3 and TOC was identified as an appropriate index to assess the degradation of EE2 by ozonation in the synthetic secondary effluent.  相似文献   

19.
The UF membrane with molecular weight cutoff (MWCO) ranging from 2 kDa to 100 kDa and XAD-8 resin were employed to identify the characteristic of molecular weight (MW) distribution of wastewater effluent organic matter (EfOM) in terms of TOC and UV254, as well as the amounts of the hydrophilic/hydrophobic organic fractions in different MW ranges. Then, the nanofiltration (NF) membrane fouling experiments were carried out using the above fractionated water to investigate the effect of MW distribution and hydrophilic/hydrophobic characteristics of EfOM on the membrane flux decline using the fractionated water samples above. The experimental results have shown that 45.61% of the total organics belongs to the low MW one, among which the percentage of the hydrophilic organics with low MW (less than 2 kDa) was up to 28.07%, while that of the hydrophobic organics was 17.54%. In particular, the hydrophilic fraction was found to be the most abundant fraction in the effluents. MW distribution has a significant effect on the membrane fouling. When the MW was less than 30 kDa, the lower the MW, the larger was the specific flux decline, while in the case of MW higher than 30 kDa, the higher the MW, the larger was the specific flux decline, and the decline degree of low MW organics was larger than the high MW one. With the same MW distribution range, specific flux decline of the hydrophilic organic was considerably slower than that of the hydrophobic organic, which indicated that the hydrophobic organic fractions dominantly contribute to the flux decline.  相似文献   

20.
采用序批式试验研究了3种粉末活性炭(PAC)对天然水体中甲基对硫磷(MP)和三氯乙烯(TCE)的吸附平衡特性,利用均相表面扩散模型(HSDM)对不同投炭量下的吸附动力学进行拟合与预测,并探讨了天然有机物(NOM)对MP、TCE在PAC上的竞争吸附效应.研究结果表明,天然水体条件下,3种PAC对MP和TCE的吸附符合Langmuir模型和Freundlich模型;MP比TCE更易于被PAC吸附;3种PAC对MP、TCE的吸附能力由大到小依次为YK炭、SL炭和JC炭;HSDM模型可以很好地对吸附动力学进行拟合,并能够有效地预测不同投炭量时的吸附动力学;天然水体中的NOM会与MP和TCE在PAC上发生竞争吸附,NOM对MP的竞争吸附作用相对TCE更为显著.  相似文献   

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