固体废弃物浸出液中酞酸酯的测定

报道高效液相色谱测定固体废弃物浸出液中酞酯的方法。实验建立了Ｚｏｒｂａｘ－ＣＮ柱和含０．１％异丙醇的正己烷为洗脱液,在２２４ｎｍ处紫外检测的液相色谱系统,并应用系统测定了北京市城市垃圾浸出液中的酞酸酯。该系统可有效地分离漫出液中非极性有机物和酞酸酯组分,并有效地避开了一部分与酞酸酯极性相近的有机物的干扰,浸出液经正己烷萃取,浓缩后,不需净化（如柱层析）即可直接进入液相色谱系统进行了分析,５种酞酸酯     

大气样品中酞酸酯的分离与测定研究

建立了以硅胶薄层色谱法预分离,反相高效液相色谱法测定大气颗粒物中酞酸酯的分析方法。该方法分离效果好,操作简单,重复性好,回收率达90％以上。利用该方法分析济南市大气颗粒物中酞酸二丁酯和二异辛酯的污染浓度分别为457和595ng／m3。      

Resource utilization of typical biomass wastes as biochars in removing plasticizer diethyl phthalate from water: characterization and adsorption mechanisms

● Six largely produced agricultural biomass wastes were pyrolyzed into biochars. ● Feedstock type significantly determined physiochemical properties of biochars. ● The biochars showed powerful adsorption capabilities to Plasticizer DEP. ● Giant reed biochar with higher DEP adsorption was a prominent sorbent. Plastic pollution as a global environmental issue has become a research hotspot, among which the removal of inherent plasticizer (e.g., phthalic acid esters, PAEs) received increasing attention. However, the effects of biochars derived from different feedstocks on the adsorption of PAEs are poorly understood. Thus, the characteristics of biochars derived from six largely produced biomass wastes in China at 400 °C, as well as their performance in adsorption of diethyl phthalate (DEP), one of frequently detected PAEs in aqueous environment, were investigated. The results indicated that the variation in feedstock type showed significant changes in the properties (e.g., porosity, specific surface area, surface functional groups) of biochars, which affected DEP adsorption and desorption. Pseudo-second order and Freundlich models fitted the adsorption data well, and adsorption mechanisms mainly included hydrophobic effect, followed by micropore filling, hydrogen bonding, and π-π EDA interactions. Adsorption thermodynamics revealed that the adsorption was a spontaneous and exothermic the adsorption capacities of DEP on these biochars slightly decreased with the increasing pH but increased with the increasing ionic strength. Among these biochars, the giant reed biochar with relatively higher DEP adsorption and low desorption exhibited the great efficiency for DEP removal as an environment-friendly sorbent. These results highlighted the significant roles of micropore filling and hydrogen bond in determining adsorption capacity of designed biochars prepared from selecting suitable agricultural straws and wetland plant waste to typical plasticizer. The findings are useful for producing designed biochars from different biomass wastes for plasticizer pollution control.     

基于权重敏感度分布研究太湖有机磷农药单一和复合风险

基于实验室能得到的有限毒性数据的物种敏感度分布法(species sensitivity distribution, SSD)很难充分代表特定区域生态系统的物种分布,需要采用考虑生物区系特征进行赋予权重的物种敏感度分布法(weighted species sensitivity distribution,WSSD)。基于太湖物种组成构建WSSD,使用最大累积率(maximum cumulative ratio, MCR)(含风险商法(hazard quotient, HQ))和概率风险评价法(probabilistic risk assessment, PRA)对太湖地区单一和混合有机磷农药的风险进行研究。结果表明,相对于传统SSD方法,加权SSD方法计算的风险商大,且5%生物受影响的概率更大。单一风险评价中,敌敌畏和乐果5%生物受影响的概率超过40%,需要优先控制;最大累积率表明,敌敌畏是复合风险的主要贡献者,单一风险评价中风险较小的马拉硫磷和对硫磷也对复合风险贡献较大,复合暴露风险评价是必要的,混合物的风险商>1,5%生物受复合暴露影响的概率高达90%,有机磷农药复合生态风险不容忽视。     

太滆运河表层沉积物中的酞酸酯类增塑剂和溴系、有机磷系阻燃剂残留特征初探

分别采用微波萃取-气相色谱/质谱法、加速溶剂萃取提取-液相色谱/质谱法对采自太滆运河5个沉积物样品中的6种邻苯二甲酸酯类(PAEs)、13种多溴联苯醚(PBDEs)和9种有机磷酸酯(OPEs)的质量比及分布进行研究。结果表明,所有样品中均检测到PAEs、PBDEs和OPEs(以总量计),其总质量比分别为1.99~6.90μg/g,47~572和17.1~69.7 ng/g;十溴联苯醚(BDE-209)和磷酸三异辛酯(TEHP)分别是质量比最高的PBDEs和OPEs;对于PAEs,入太湖点位处邻苯二甲酸二(2-乙基己基)酯(DEHP)质量比较高,其余点位则是邻苯二甲酸二正丁酯(DBP)质量比较高;ω(PAEs)、ω(PBDEs)和ω(OPEs)两两间线性相关性较好,指示其来源相同;下游沉积物中污染物的质量比均高于上游,沿岸生产、生活中增塑剂和阻燃剂对太湖的污染应引起更多关注。     

电气石球负载纳米二氧化钛光催化剂的制备及其对水中邻苯二甲酸酯的降解作用

以电气石微球为载体,采用溶胶–凝胶法制备电气石负载纳米二氧化钛(TiO_2)光催化材料。用X射线衍射分析、扫描电镜对微球负载TiO_2光催化剂的晶型结构和形貌进行了表征。以6种邻苯二甲酸酯为降解对象,考察了热处理温度、辐射强度对TiO_2光催化活性的影响。发现TiO_2以纳米颗粒的形式牢固负载在电气石微球表面;以天然电气石微球为载体所制得的TiO_2光催化剂对于6种邻苯二甲酸酯具有较好的光催化降解效果。     

邻苯二甲酸二甲酯在离体人红细胞内的分布和含量研究

邻苯二甲酸酯类污染物(PAEs)在环境中普遍存在,可沿食物链富集,危害人体健康。本文利用荧光光谱法和高效液相色谱法(HPLC)探究了邻苯二甲酸二甲酯(DMP)在离体人红细胞内的分布情况。结果表明,红细胞在310 nm、490 nm和609nm处各具有一个荧光特征峰,其来源分别为:红细胞内的蛋白;还原型烟酰胺腺嘌呤二核苷酸磷酸(NADPH)、黄素腺嘌呤二核苷酸(FAD)和膜脂;锌卟啉和原卟啉。DMP染毒后,310 nm处的荧光峰出现明显下降,其原因为进入红细胞内的DMP与蛋白发生了结合;490 nm和609 nm处的荧光峰变化很小。高效液相色谱(HPLC)实验结果表明,DMP能透过红细胞膜进入细胞内部,其进入量随暴露量增加而增加,进入量和暴露量的比值随暴露量增加而减少。上述研究成果能加深对PAEs在血液运输过程中与红细胞毒性作用的理解,可为PAEs的危险性评估和相关疾病预防提供数据参考。     

加压流体萃取-气相色谱法测定土壤中酞酸酯类化合物

建立了土壤中15种酞酸酯的加压流体萃取-弗罗里硅土柱净化-气相色谱测定方法。就萃取条件探讨了溶剂、温度、时间和循环次数对萃取效率的影响,就净化条件探讨了净化柱和洗脱溶剂对萃取效率的影响。根据研究结果,确定萃取条件以二氯甲烷为萃取溶剂,在萃取温度120℃、压强1 500 psi时,预热5 min,静态提取5 min,循环萃取2次,用体积为60%萃取池体积的萃取溶剂冲洗萃取池,之后用氮气吹扫萃取池90 s;净化条件为萃取溶液过弗罗里硅土固相萃取柱净化后,以正己烷∶丙酮(体积比为5∶1)洗脱。15种酞酸酯类化合物加标回收率为67.1%~124%,方法检出限为0.017~0.048 mg/kg。     

Pollution characteristics of 15 gas- and particle-phase phthalates in indoor and outdoor air in Hangzhou

Phthalate esters (PAEs), typical pollutants widely used as plasticizers, are ubiquitous in various indoor and outdoor environments. PAEs exist in both gas and particle phases, posing risks to human health. In the present study, we chose four typical kinds of indoor and outdoor environments with the longest average human residence times to assess the human exposure in Hangzhou, including newly decorated residences, ordinary residences, offices and outdoor air. In order to analyze the pollution levels and characteristics of 15 gas- and particle-phase PAEs in indoor and outdoor environments, air and particulate samples were collected simultaneously. The total PAEs concentrations in the four types of environments were 25,396, 25,466.8, 15,388.8 and 3616.2?ng/m³, respectively. DEHP and DEP were the most abundant, and DMPP was at the lowest level. Distinct variations in the distributions of indoor/outdoor, gas/particle-phase and different molecular weights of PAEs were observed, showing that indoor environments were the main sources of PAEs pollution. While most PAEs tended to exsit in indoor sites and gas-phase, the high-molecular-weight chemicals tended to exist in the particle-phase and were mainly found in PM_2.5. PAEs were more likely adsorbed by small particles, especially for the indoor environments. There existed a good correlation between the particle matter concentrations and the PAEs levels. In addition, neither temperature nor humidity had obvious effects on the distributions of the PAEs concentrations.     

3DBER-S-Fe同步脱氮除磷及去除邻苯二甲酸酯的工艺特性

为探究三维电极生物膜耦合硫铁新工艺(3DBER-S-Fe)脱氮除磷并同步去除邻苯二甲酸酯(PAEs)的工艺特性,在水力停留时间(HRT)分别为8、6、4 h条件下,研究分析了系统内总氮(TN)、总磷(TP)、邻苯二甲酸二丁酯(DBP)、邻苯二甲酸二(2-乙基)己酯(DEHP)、NO-3-N、SO2-4及pH的变化情况.结果表明,3DBER-S-Fe系统具有较好的脱氮除磷及PAEs去除效果.当水力停留时间为8、6、4 h时,TN去除率分别为80.99%、78.85%、64.76%;TP去除率分别为65.18%、67.17%、43.44%;DBP去除率分别为96.72%、97.32%、96.53%;DEHP去除率分别为91.89%、81.57%、74.30%.在3DBER-S-Fe系统内,存在异养、氢自养、硫自养反硝化脱氮过程,当HRT由8h缩短到4h时,单质硫可以弥补进水NO-3-N负荷增加所导致的反硝化电子供体相对不足问题,维持系统高效的脱氮效率;系统中海绵铁填料腐蚀产生的铁离子能够高效持续沉淀除磷;3DBER-S-Fe工艺结合了物理吸附、生物降解及电化学作用,使其在不同HRT条件下具有较高的DBP与DEHP去除率.