AAO-MBR工艺污水处理系统中消毒副产物前体物变化规律

为探究DBPs（消毒副产物）前体物在污水处理过程中的变化情况,采用超滤膜和XAD大孔吸附树脂将AAO-MBR工艺沿程出水中DOM（溶解性有机物）进行分离,并利用3D-EEM（三维荧光光谱）对分离前后水样进行表征,同时测定DBPFP（消毒副产物生成势）.结果表明:①沉砂池出水具有较低的C-DBPFP（含碳消毒副产物生成势）;经过AAO和MBR后,由于微生物代谢作用生成的疏水性SMPs（微生物代谢产物）类物质（为主要的C-DBPs前体物质）包含较多不饱和键,导致C-DBPFP增加.②沉砂池出水的N-DBPFP（含氮消毒副产物生成势）较低,但经过AAO后生成的小分子物质（为主要的N-DBPs前体物）导致N-DBPFP增加;经过MBR后由于SRT（污泥停留时间）和污泥浓度的增加造成小分子物质减少,致使N-DBPFP降低.③市政污水经过AAO后,C-DBPs和N-DBPs前体物分别增加了90.9%和7.3%;而MBR具有较高的DOC去除率（74.4%）,去除了56.8%的C-DBPs前体物和78.1%的N-DBPs前体物.研究显示,AAO-MBR工艺对市政污水中C-DBPs和N-DBPs前体物有较好地去除效果.      

黄河原水中消毒副产物前体物的组成特征及其化学预氧化处理效果对比

以取自河南省郑州市石佛原水厂的黄河原水为研究对象,系统研究了原水中消毒副产物(DBPs)前体物的组成规律,对比分析了3种预氧化剂(高锰酸钾、自由氯和二氧化氯)对原水中DBPs生成潜能的消减规律.试验结果表明:原水中DBPs的前体物均以小分子有机物和疏水性组分(52.51%)为主;分子量小于1 k Da有机物组分是生成含氮消毒副产物(N-DBPs)和三卤甲烷(THMs)的主要前体物;疏水性有机物是生成THMs的主要前体物,亲水性有机物是生成N-DBPs的主要前体物.经Cl2预氧化后,直接生成的DBPs随着自由氯投加量的增加而增加,Cl O2和KMn O4预氧化直接增加DBPs产生量.经3种预氧化剂氧化后,原水中三卤甲烷生成潜能(THMFP)均呈现一定的下降,其降低量依次为Cl O2Cl2KMn O4;然而3种预氧化剂都不能有效的减少含氮消毒副产物生成潜能(N-DBPFP),Cl O2预氧化和Cl2预氧化可增加N-DBPs生成潜能,尤其在较高投加量下,Cl2预氧化将大大增加N-DBPs生成潜能.为有效消减总DBPs生成潜能,水厂可优先采用KMn O4或Cl O2作为预氧化剂处理引黄水库或沉砂池水.     

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

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.     

天然太阳辐射作用下冰体中溶解性有机物组分的光降解

利用XAD树脂对沈阳市细河河水中的溶解性有机物(DOM)进行分级分离.按照DOM在XAD树脂上的吸附特性将其分为5个部分:疏水性有机酸(HPO-A)、疏水性中性有机物(HPO-N)、过渡亲水性有机酸(TPI-A)、过渡亲水性中性有机物(TPI-N)和亲水性有机物(HPI).研究了天然太阳辐射作用下冰体中DOM组分的光降解特性.结果表明:太阳辐射作用下,冰体中的5种DOM组分均会发生光降解,其中HPO-A的光降解程度最高.光照80 h后,冰体中HPO-A、HPO-N、TPI-A、TPI-N和HPI的UV-254去除率分别为43.4%、44.15%、45.9%、55.0%和58.8%.光降解作用对冰体中的荧光物质具有显著的去除效果.除了HPO-A中的类芳香族蛋白质荧光物质(Ⅰ)之外,DOM组分中的各类荧光物质的光降解程度均高于以DOC表征的整体有机物的光降解程度.光降解对DOM组分中类富里酸荧光物质和类腐殖酸荧光物质的去除效果优于对类溶解性微生物代谢产物荧光物质和类芳香族蛋白质荧光物质的去除效果.在冰体中DOM组分的光降解过程中,既发生THMs前体物的去除,也发生THMs前体物的生成.光降解使HPO-A中THMs前体物的量减少,使TPI-N中THMs前体物的量增加,而其他3种组分中THMs前体物的量的变化与光照时间有关.     

污水厂出水DOM的分级及三卤甲烷生成势研究

研究目的在于调查寒冷季节城市污水处理厂出水中天然有机物化学组分分级,探讨各分级组分与消毒副产物生成潜能间之关系。采集污水厂二级出水,以三种不同树脂把污水厂出水中有机物分离成六类不同组分,其中A水厂含量最高的物质为亲水酸性物质(33%)而B水厂的疏水性中性物质含量最多约占总有机物的64%。从总体来看两水厂的疏水性物质含量大于亲水性物质含量,疏水性物质的三卤甲烷生成势也较大,是水体中消毒副产物的主要前驱物质。疏水性有机物质较多,代表受生活污水污染严重,得知该城市污水主要受民生污染较多。     

氯化对二级处理出水中溶解性有机物结构的影响

以哈尔滨市W污水处理厂污水为研究对象,利用XAD树脂对二级处理出水中的溶解性有机物(DOM)进行分级分离.按照DOM在不同树脂上的吸附特性将其分为5个部分:疏水性有机酸(HPO-A)、疏水性中性有机物(HPO-N)、过渡亲水性有机酸(TPI-A)、过渡亲水性中性有机物(TPI-N)和亲水性有机物(HPI).考察了二级处理出水中有机组分的组成分布、三卤甲烷生成势、紫外光谱和红外光谱.结果表明,二级处理出水中的主要成分是HPO-A和HPI,两者含量之和达70.8%.HPO-A是加氯消毒时产生三卤甲烷的主要有机组分,其三卤甲烷生成活性(STHMFP)为232.9μg/mg.而HPO-N、TPI-A、TPI-N和HPI的STHMFP介于100～125μg/mg之间.氯化反应后,HPO-A、HPO-N、TPI-A和HPI的紫外-可见吸光度均降低,而TPI-N则相反.并且HPO-A、HPO-N、TPI-A和TPI-N中的O-H、C=C和苯环的含量降低,而C-O的含量升高,还生成了C=O和C-Cl.     

污水厂二级出水中THMs前体物卤代活性荧光光谱分析

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.     

城市污水处理过程中溶解性有机物及荧光物质的变化规律

以锦州市W污水处理厂为研究对象,利用三维荧光光谱分析技术和荧光区域积分(FRI)方法考察了城市污水处理过程中溶解性有机物及荧光物质的去除状况.利用XAD树脂将DOM分为5个部分:疏水性有机酸(HPO-A)、疏水性中性有机物(HPO-N)、过渡亲水性有机酸(TPIA)、过渡亲水性中性有机物(TPI-N)和亲水性有机物(HPI).结果表明,HPO-A和HPI是该污水处理厂进水中的主要DOM组分,并且DOM中的荧光物质主要为类芳香族蛋白质荧光物质和类富里酸荧光物质.在该污水处理厂内,生物降解作用是TPI-A和HPI的主要去除机制,HPO-N和TPI-N主要是由深度处理工艺(絮凝-沉淀-过滤)去除的,生物处理工艺和深度处理工艺对HPO-A的去除能力接近,而生物处理工艺和深度处理工艺对TPI-N的去除效果均较差.生物处理工艺对HPO-A、TPI-A和HPI中的荧光物质有较强的去除能力,而对HPO-N和TPI-N中荧光物质的去除效果较差.深度处理工艺能够有效去除HPO-A和HPO-N中的荧光物质,而对TPI-A、TPI-N和HPI中的荧光物质无明显去除作用.     

Cu2+在混凝中对富里酸氯化消毒副产物的影响

混凝实验采用硫酸铝作为混凝剂,以富里酸（FA）为目标物,考察Cu²⁺对浊度、溶解性有机碳（DOC）去除效果和氯化消毒副产物生成势（DBPsFP）的影响,并采用三维荧光光谱（3DEEM）和超滤膜分级对混凝出水进行表征.结果表明,Cu²⁺可以通过络合反应提高混凝过程对FA中亲水性组分和芳香结构DBPs前驱体的去除效果.在pH> 7时,可以使二氯乙酸生成势（DCAAFP）和三氯甲烷生成势（TCMFP）明显降低.Cu²⁺-混凝的作用更倾向于影响FA中分子量级分处于10~30kDa的物质,提高其对DOC和DBPs生成势的去除效果.     

利用斑马鱼胚胎研究污水处理工艺中DOM与DBPs的关系

以模式生物斑马鱼胚胎为试验材料,通过暴露试验研究了污水处理工艺不同阶段出水中溶解性有机物(DOM)与消毒副产物(DBPs)毒性效应关系,揭示污水处理工艺中DBPs前体物DOM的生成变化规律以及对再生水生态安全性的影响。结果表明,污水处理各阶段DOM和DBPs水样对斑马鱼胚胎均有不同程度的致死效应,改良A2/O工艺段水样暴露的斑马鱼胚胎死亡率较大,DOM暴露的斑马鱼胚胎致死毒性效应低于DBPs,且DBPs对斑马鱼胚胎的半致死毒性效应较大;污水处理过程中增加的腐殖酸类物质主要来自于好氧过程微生物的生化合成;污水处理各阶段水样中腐殖酸类物质含量水平与斑马鱼胚胎的致死毒性效应存在正相关关系,因此污水生物处理会增大水中消毒前体物(DOM)特别是腐殖酸类物质的含量,从而增加了DBPs的产生量和再生水的生物毒性及环境风险。     

Changes in different organic matter fractions during conventional treatment and advanced treatment

XAD-8 resin isolation of organic matter in water was used to divide organic matter into the hydrophobic and hydrophilic fractions. A pilot plant was used to investigate the change in both fractions during conventional and advanced treatment processes. The treatment of hydrophobic organics (HPO), rather than hydrophilic organicas (HPI), should carry greater emphasis due to HPO’s higher trihalomethane formation potential (THMFP) and haloacetic acid formation potential (HAAFP). The removal of hydrophobic matter and its transmission into hydrophilic matter reduced ultimate DBP yield during the disinfection process. The results showed that sand filtration, ozonation, and biological activated carbon (BAC) filtration had distinct influences on the removal of both organic fractions. Additionally, the combination of processes changed the organic fraction proportions present during treatment. The use of ozonation and BAC maximized organic matter removal e ciency, especially for the hydrophobic fraction. In sum, the combination of pre-ozonation, conventional treatment, and O3-BAC removed 48% of dissolved organic carbon (DOC), 60% of HPO, 30% of HPI, 63% of THMFP, and 85% of HAAFP. The use of conventional treatment and O3-BAC without pre-ozonation had a comparable performance, removing 51% of DOC, 56% of HPO, 45% of HPI, 61% of THMFP, and 72% of HAAFP. The e ectiveness of this analysis method indicated that resin isolation and fractionation should be standardized as an applicable test to help assess water treatment process e ciency.     

Disinfection byproduct precursor removal by enhanced coagulation and their distribution in chemical fractions

Raw water from the Songhua River was treated by four types of coagulants, ferric chloride(FeCl3), aluminum sulfate(Al2(SO4)3),polyaluminum chloride(PACl) and composite polyaluminum(HPAC), in order to remove dissolved organic matter(DOM). Considering the disinfection byproduct(DBP) precursor treatability, DOM was divided into five chemical fractions based on resin adsorption.Trihalomethane formation potential(THMFP) and haloacetic acid formation potential(HAAFP) were measured for each fraction. The results showed that hydrophobic acids(HoA), hydrophilic matter(HiM) and hydrophobic neutral(HoN) were the dominant fractions.Although both HoN and HoA were the main THM precursors, the contribution for THMFP changed after coagulation. Additionally,HoA and HiM were the main HAA precursors, while the contribution of HoN to HAAFP significantly increased after coagulation.HoM was more easily removed than HiM, no matter which coagulant was used, especially under enhanced coagulation conditions.DOC removal was highest for enhanced coagulation using FeCl3 while DBPFP was lowest using PACl. This could indicate that not all DOC fractions contained the precursors of DBPs. Reduction of THMFP and HAAFP by PACl under enhanced coagulation could reach51% and 59% respectively.     

Formation and control of disinfection byproducts and toxicity during reclaimed water chlorination: A review

Chlorination is essential to the safety of reclaimed water; however, this process leads to concern regarding the formation of disinfection byproducts (DBPs) and toxicity. This study reviewed the formation and control strategies for DBPs and toxicity in reclaimed water during chlorination. Both regulated and emerging DBPs have been frequently detected in reclaimed water during chlorination at a higher level than those in drinking water, indicating they pose a greater risk to humans. Luminescent bacteria and Daphnia magna acute toxicity, anti-estrogenic activity and cytotoxicity generally increased after chlorination because of the formation of DBPs. Genotoxicity by umu-test and estrogenic activity were decreased after chlorination because of destruction of toxic chemicals. During chlorination, water quality significantly impacted changes in toxicity. Ammonium tended to attenuate toxicity changes by reacting with chlorine to form chloramine, while bromide tended to aggravate toxicity changes by forming hypobromous acid. During pretreatment by ozonation and coagulation, disinfection byproduct formation potential (DBPFP) and toxicity formation potential (TFP) occasionally increase, which is accompanied by DOC removal; thus, the decrease of DOC was limited to indicate the decrease of DBPFP and TFP. It is more important to eliminate the key fraction of precursors such as hydrophobic acid and hydrophilic neutrals. During chlorination, toxicities can increase with the increasing chlorine dose and contact time. To control the excessive toxicity formation, a relatively low chlorine dose and short contact time were required. Quenching chlorine residual with reductive reagents also effectively abated the formation of toxic compounds.     

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.     

Rapid prediction of disinfection by-product formation potential by fluorescence

Recent drinking water regulations have lowered the disinfection by-product standards as well as added new disinfection by-products for regulation. Natural organic matter (NOM) plays a major role in the formation of undesirable organic by-products following disinfection/oxidation of drinking water. It is suspected that most precursors to disinfection by-products are humic, although nonhumic substances are also suspected of contributing to these by-products. Many of the disinfection by-products have adverse health effects in humans (i.e., carcinogenic or mutagenic effects). The primary chlorinated disinfection by-products of concern include trihalomethanes, haloacetic acids, and haloacetonitrile. Fluorescence spectroscopy was used to study humic and fulvic acids. The two fractions of humic substances, humic and fulvic acids, were characterized by a double-peak phenomena in an overlapping fluorescing region. Disinfection by-product formation potentials of humic and fulvic acids have been correlated with total organic carbon, UV absorbance at 254 nm, specific absorbance and fluorescence. River humic and fulvic acid was found to have the highest reactivity to disinfection by-product formation as compared to soil and peat humic and fulvic acid. Fluorescence spectroscopy has shown to be a rapid and predictive tool for disinfection by-products formation potential of humic and fulvic acids.     

溶解性有机物在土壤含水层处理系统中的变化

通过实验室模拟土壤含水层处理(SAT)的土壤柱系统研究了二级处理出水中溶解性有机物(DOM)的荧光特性在SAT系统中的变化.利用XAD树脂将二级处理出水中的DOM分为5个部分:疏水性有机酸(HPO-A),疏水性中性有机物(HPO-N),过渡亲水性有机酸(TPI-A),过渡亲水性中性有机物(TPI-N)和亲水性有机物(HPI).结果表明,TPI-N中的类芳香族蛋白质荧光物质在SAT系统中优先去除.经过SAT系统处理后,类芳香族蛋白质荧光物质和类溶解性微生物代谢产物荧光物质在HPO-A,HPO-N,TPI-A和HPI中的相对含量升高.各组分中带有3~5个稠合苯环的荧光物质,以及激发波长/发射波长(λex/λem)=390~410nm/456~476nm的类腐殖酸荧光物质在SAT系统中的去除率低于相应组分中以溶解性有机碳(DOC)表征的整体有机物的去除率.不同组分中的其他荧光物质在SAT系统中去除行为不同.     

阿哈水库DOM的分离及其对消毒副产物的贡献

为研究高原喀斯特湖库DOM（dissolved organic matter,溶解性有机质）的组成及其化学特征对DBPs（disinfection by-products,消毒副产物）生成路径的影响,以西南喀斯特地区贵阳市阿哈水库的DOM为研究对象,结合XAD大孔树脂分离技术,通过化学表征〔包括UV-Vis（紫外-可见光光谱）、FTIR（红外光谱）和3D-EEM（三维荧光光谱）〕手段来研究各组分对C-DBPs（含碳消毒副产物）和N-DBPs（含氮消毒副产物）的生成贡献.不同组分芳香性的大小依次为HON（憎水中性物）> HIB（亲水碱）> HOA（憎水酸）> HIN（亲水中性物）≈HIA（亲水酸）> HOB（憎水碱）.憎水与亲水DOM的DBPs生成潜能相近.其中,HON最高,其次为HIB和HOA.HIB和HOA的主要卤代反应位分别来源于藻类有机物的蛋白质和富里酸,而HON的DBPs生成潜能的贡献主要为分子中的芳香和共轭不饱和结构.HIA和HIN的构成主要为脂肪烃,贡献较低的DBPs的生成潜能.对于C-DBPs,THMs和HAAs的生成潜能总体相近,不同组分的差异明显.对于N-DBPs,卤乙腈的生成潜能占80%以上,憎水DOM的贡献较高.DBPs的生成路径从UV-Vis、FTIR和3D-EEM的官能团和特征峰解析结果中均得到了较好的响应.