胶束电动毛细管色谱对水中邻苯二甲酸二甲酯降解历程的研究

研究了邻苯二甲酸二甲酯在臭氧氧化和二氧化钛光催化氧化两种条件下的氧化降解历程。采用胶束电动毛细管色谱技术对邻苯二甲酸二甲酯降解反应的中间产物和终产物进行跟踪分析。初步认为 ,臭氧氧化邻苯二甲酸二甲酯时 ,首先是侧链反应 ,生成邻苯二甲酸 ,然后再进一步氧化降解。而TiO2 光催化氧化时 ,则为自由基直接攻击苯环 ,开环生成链状化合物 ,最终降解为CO2 和H2 O。     

分光光度法同时测定水中邻苯二甲酸和邻苯二甲酸二甲酯

本文用双波长等吸收紫外分光光度法，同时测定水中邻苯二甲酸（ＰＡ）和邻苯二甲酸二酯（ＤＭＰ）的含量，实验表明，ＤＭＰ和ＰＡ在１ｍｇ／ｌ到５０ｍｇ／ｌ的浓度范围内，对于波长为２１６，２３７．６，２６６，２９２ｎｍ的吸收均满足比尔吸收定律，迭加性令人满足，分析方法的回收率在ＤＭＰ与ＰＡ含量比例相差较小时，其值接近１００％。在相差超过９倍时，通过合理的校正，回收率也能达到９０％－１１０％，回收率受Ｎａ＾＋     

土壤中酞酸酯的分析方法研究

经过系统研究,建立了以正已烷/丙酮(V/V:2/1)为溶剂,对土壤进行超声萃取,然后以浓H_2SO_4进行纯化的分析土壤中酞酸酯的方法。本方法具有省时、省溶剂、空白低及纯化效果好的特点,具有很强的实用性。     

黄河水体沉积物对邻苯二甲酸二甲酯的吸附

为探讨黄河水体沉积物对邻苯二甲酸二甲酯(DMP)的吸附能力，用批量平衡法研究了沉积物与DMP的吸附作用。结果表明吸附等温线符合Freundlich方程，通过回归分析，分别得出20℃和15℃DMP在黄河水中的等温方程Cs=0．3488×Ceq0.7799和Cs=0．3354×Ceq0.7849。因指数项常数小于1，说明沉积物对DMP的吸附不随溶液中DMP的浓度成正比例增加。黄河水体沉积物对DMP有一定的净化能力。     

改性活性炭对内分泌干扰物的吸附效能与机制

为提高活性炭对内分泌干扰物的吸附效率,分别采用混合酸溶液,氨水,KMnO₄溶液和表面活性剂溶液对活性炭进行改性.采用比表面积及孔隙度分析仪、扫描电子显微镜（SEM）、傅里叶红外光谱（FT-IR）和Boehm滴定法对改性后活性炭表面化学性质及孔隙特征的变化进行评价.通过静态吸附实验确定活性炭的最佳改性方法,并对改性后活性炭吸附机理进行探讨.实验结果表明,KMnO₄改性活性炭（AC-K）表现出最佳的污染物吸附性能,其对邻苯二甲酸二丁酯（DBP）、阿特拉津（Atrazine）和磺胺甲恶唑（SMZ）的去除率分别可达到94.5%、93.8%和95.5%,且吸附过程符合二级动力学方程和D-R模型.由模型计算结果可知,AC-K对目标污染物的吸附速率明显加快,其中对Atrazine的二级吸附速率常数是AC的1.75倍.AC-K对DBP、Atrazine和SMZ的理论饱和吸附量也分别比改性前分别提高了42.2%、629%和122%.经KMnO₄改性后,活性炭的吸附机制由物理吸附占主导,转化为离子交换吸附.     

生物质炭对邻苯二甲酸二丁酯污染土壤微生物群落结构多样性的影响

在邻苯二甲酸二丁酯(DBP)污染的不同类型土壤(有机质含量低的新垦红壤、有机质含量高的熟化红壤)中添加不同种类(稻草炭、毛竹炭)以及不同用量(0%、0.5%和2%)的生物质炭,温室种植上海青并在56 d后采集土样,采用磷脂脂肪酸法(PLFA)考察了土壤类型、生物质炭种类以及用量对土壤微生物群落结构多样性的影响.结果表明:对细菌、真菌及微生物总PLFA这三者的含量而言,熟化红壤显著(p0.05)高于新垦红壤,熟化红壤中添加2%稻草炭使其显著(p0.05)增加,新垦红壤中添加毛竹炭使其显著(p0.05)降低.新垦红壤中添加2%稻草炭对革兰氏阴性菌/革兰氏阳性菌比值的增加效果最显著(p0.05),添加2%毛竹炭对土壤微生物群落Shannon指数的降低效果最显著(p0.05).添加2%稻草炭对DBP污染土壤中微生物压力指数降低效果最显著(p0.05).生物质炭对熟化红壤中真菌/细菌、革兰氏阴性菌/革兰氏阳性菌及微生物群落Shannon指数均无显著影响.PCA分析表明,土壤有机质含量以及生物质炭的种类和用量均会对土壤微生物群落结构产生一定影响,且生物质炭的影响与土壤有机质含量密切相关.     

乌鲁木齐河水中有机悬浮物的分析

本文对乌鲁木齐河中、上游河段悬浮物中的有机物进行了分析，结果表明：冰川站、英雄桥和青年渠道采样点有机物种类达４０余种，总含量分别为１．０，１．１４和１．２ｍｇ．１＾－１，其中Ｃ２９烷烃相对含分别为７．９４％，１５．４９％和１８．４９％，邻苯二甲酸二正丁酯相对含量分别为３０．２８％，２２．２８％和３３．７５％，乌鲁木齐河中、上游河段受到程度不同的酞酸二酯的污染。     

Removal of a type of endocrine disruptors-di-n-butyl phthalate from water by ozonation

Ozonation of synthetic water containing a type of endocrine disruptor-di-n-butyl phthalate （DBP） was examined. Key impact factors such as pH, temperature, ionic strength, ozone dosage and initial DBP concentration were investigated. In addition, the activities of radicals on uncatalysed and catalysed ozonation were studied. The degradation intermediate products were followed and the kinetic of the ozonation were assessed as well. Results revealed that ozonation of DBP followed two mechanisms. Firstly, the reaction rate of direct ozonation was slower at lower pH, temperature, and ionic strength. Secondly, when these factors were increased for indirect radical reaction, higher percentage of DBP was removed with the increase of the initial ozone dosage and the decrease of the initial DBP concentration. In addition, tea-butanol, humic substances and Fe（Ⅱ） affected DBP ozonation through the radical pathway. It was determined that ozonation was restrained by adding tea-butanol for its radical inhibition effect. Furthermore, humic substances enhanced the reaction to some extent, but a slight negative effect would be encountered if the optimum dosage was exceeded. As a matter of fact, Mn（Ⅱ） affected the ozonation by ＂active sites＂ mechanism. In the experiment, three different kinds of intermediate products were produced during ozonation, but the amount of products for each one of them decreased as pH, temperature, ionic strength and initial ozone dosage increased. A kinetic equation of the reaction between ozone and DBP was obtained.     

饮用水中DBP的臭氧氧化效能与影响因素

以邻苯二甲酸二正丁酯 (DBP)为典型内分泌干扰物质的代表物 ,对饮用水中大量存在的不同物质在不同反应条件下对O3氧化DBP的影响进行了研究 .结果表明 ,O3单独作用于DBP时 ,在反应进行 30min后就能去除 90 %以上 ;O3对DBP的氧化降解除了O3的直接氧化外 ,还有·OH的作用机制 ;HCO-3 和腐殖质都通过影响·OH的产生而影响DBP的O3氧化 ,水中的浑浊度由于对疏水性的DBP会产生吸附作用而对DBP的去除有促进作用 .     

Dibutyl phthalate adsorption characteristics using three common substrates in aqueous solutions

• DBP adsorption was tested using three kinds of substrates in constructed wetlands. • The DBP adsorption capacity followed the order: steel slag>gravel>shell sand. • High temperatures increased the DBP adsorption capacity in the substrates. • DOM consistently inhibited the DBP adsorption onto steel slag and gravel. In recent years, the presence and adverse impacts of phthalic acid esters in aquatic environments have gained increasing attention. This work investigated the adsorption behavior of a typical phthalic acid ester, dibutyl phthalate (DBP), onto steel slag, gravel, and shell sand (substrates commonly used in constructed wetlands). The influence of dissolved organic matter (DOM) on DBP adsorption was investigated using humic acid as a proxy for DOM. The results demonstrated that the adsorption of DBP to three substrates reached equilibrium within 96 h, and the adsorption kinetics were well fitted by a pseudo-second-order model. The DBP adsorption isotherms were best fitted by the Langmuir adsorption model. The DBP adsorption capacity decreased in the order of steel slag>gravel>shell sand, with values of 656 mg/kg, 598 mg/kg, and 6.62 mg/kg at 25°C, respectively. DBP adsorbed to the surface of all substrates in a monolayer via an endothermic process. The DBP adsorption capacities of steel slag and gravel decreased as the DOM content increased. The DBP adsorption mechanisms to steel slag and gravel mainly involved the surface coordination of DBP with –OH or –COOH groups and electrostatic interactions. The results of this work suggest that steel slag and gravel may be ideal substrates for use in constructed wetlands to treat wastewater polluted with DBP.