水源水中典型化学品突发污染的应急处理

针对被典型化学品双酚A(BPA)与邻苯二甲酸二乙酯(DEP)污染原水的应急处理工艺进行了研究.结果表明,活性炭吸附可有效去除双酚A和DEP.拟二级动力学模型和Elovich模型较好地描述粉末活性炭对原水中BPA和DEP的吸附过程.中试条件下,50 mg/L的粉末活性炭可分别将原水中浓度约为500 μg/L的双酚A和3.3 mg/L的DEP处理达标.炭砂滤柱对2种化学品的动态吸附表明,BPA和DEP的去除率受它们初始浓度的影响较小,在滤速为5.1～15.3 m/h的范围内BPA和DEP的去除率基本不受滤速的影响.当同时采用粉末活性炭和炭砂滤柱工艺时, PAC的吸附过程是去除污染的主要阶段,炭砂滤柱可以作为粉末活性炭的有效补充保证一定的安全系数.KMnO₄和Cl₂均不能氧化DEP,3 mg/L的KMnO₄和1.5 mg/L的Cl₂可几乎完全氧化水中浓度为850　μg/L的BPA,BPA的氯化产物和KMnO₄的氧化产物及其毒性有待于进一步研究.　1.5 mg/L高锰酸钾和PAC联用对去除DEP无协同作用,对去除BPA有促进作用.     

酸化蛭石的表面有机修饰及其对疏水性微污染物的吸附

插层法制备有机黏土存在比表面积低、负载不均等问题,限制了此类材料吸附性能的进一步提高.基于此,通过选择性酸浸的方法预处理天然蛭石,以三甲基氯硅烷(CTMS)和三乙基氯硅烷(CTES)对其进行表面有机修饰,利用FTIR、BET、SEM和热重等方法对材料进行表征.结果表明,改性酸化蛭石的比表面积可达361.0 m2.g-1,而有机插层蛭石的比表面积仅为6.0m2.g-1,有机基团更稳定地以共价键形式负载于酸化蛭石表面.以疏水性有机微污染物邻苯二甲酸二乙酯(DEP)为测试目标,考察材料的吸附性能.在本实验条件下,测得CTES改性酸化蛭石、CTMS改性酸化蛭石和有机插层蛭石对DEP的吸附量分别为63.7、51.2和15.7 mg.g-1,证明有机修饰后的酸化蛭石具有更强的疏水性吸附能力,有机负载的均匀性是决定吸附能力的关键因子.动力学研究表明吸附行为遵循拟二级动力学方程;吸附等温线表现出线性特征,可由Henry和Freundlich模型进行描述,表明分配作用是吸附过程的主要机制.     

天然水中有机污染物的生物降解模拟实验方法

本文系统地介绍了天然水体中有机污染物生物降解实验室模拟的建立原则、方法和分类，并以有机污染物邻苯二甲酸二甲酯（ＤＭＰ）和二乙酯（ＤＥＰ）为例，介绍了生物降解模拟实验过程。     

五氧化二钒类Fenton降解邻苯二甲酸二乙酯的机制研究

发展了基于五氧化二钒(V_2O_5)和过氧化氢(H_2O_2)的新型类Fenton体系,探索了此体系产生羟基(·OH)的机制及降解邻苯二甲酸二乙酯(DEP)的效率;并考察了V_2O_5投加量、H_2O_2浓度,以及草酸对DEP降解的影响。结果表明,当V_2O_5投加量为0.1 g·L-1,H_2O_2浓度为2.0 mmol·L-1,反应24 h后,对DEP(25 mg·L-1)的降解率可达61.1%,增加或降低V_2O_5投加量和H_2O_2浓度均不利于DEP的降解。利用电子顺磁共振技术(Electron Paramagnetic Resonance,EPR)耦合5,5-二甲基-1-吡咯啉氮氧化物(DMPO)为捕获剂对反应体系中的主导自由基进行鉴定,发现·OH是体系降解DEP的主要活性物种,利用苯甲酸作为探针分子实现了·OH的间接定量,并初步推测了V_2O_5活化H_2O_2的过程。     

壳聚糖改性膨润土对邻苯二甲酸二乙酯的吸附研究

以膨润土为载体,壳聚糖为改性剂,制备了壳聚糖-膨润土复合吸附剂,研究了其吸附效果。实验结果表明:pH值为4~6.8,复合吸附剂用量为2.5 g,温度为25℃,吸附时间为10 min,初始浓度为20 mg/L的邻苯二甲酸二乙酯(DEP)废水去除率可达到59%。相对于原土,改性膨润土吸附效果有明显提高。     

老化过程对生物质炭吸附-解吸附邻苯二甲酸二乙酯的影响

将稻草和竹锯末在500℃条件下炭化制备得到两种生物质炭,并与土壤充分混合老化处理30 d.通过批处理恒温振荡法,研究了老化过程(恒湿和干湿交替)、制备原材料、不同施用量(0、0.1%和0.5%,质量分数)和土壤类型(熟化红壤、新垦红壤)对生物质炭吸附邻苯二甲酸二乙酯(DEP)的影响.结果表明,土壤中添加生物质炭的处理对DEP的吸附能力显著增强,且随着生物质炭添加量的增加,各个处理对DEP的吸附能力增强.与稻草炭相比,竹炭对DEP具有更强的吸附能力并且更难以解吸附DEP.与添加新鲜生物质炭的土壤相比,老化过程降低了加炭处理对DEP的吸附能力.不同老化条件下,生物质炭吸附DEP能力的降低顺序也不同,主要表现为:干湿交替恒湿.     

Chronic mixture toxicity study of Clophen A60 and diethyl phthalate in male rats

Chemical mixtures are an important area of research as individuals are exposed to low doses of persistent chemical agents known as environmental pollutants throughout their life time. Polychlorinated biphenyls (PCBs) and diethyl phthalate (DEP) are ubiquitous environmental pollutants that could be present in the same environmental compartment; hence organisms may get simultaneously exposed to both. Therefore, a study was undertaken to see whether PCB and DEP together show interactive chronic mixture toxicity in male Wistar rats. Healthy male Wistar rats weighing 70–100?g were randomly assigned to four groups of six each. Control rats were fed on normal diet and water ad libitum. Oil control rats were maintained on a normal diet mixed with corn oil. Rats were given Clophen A60 (PCB) and DEP dissolved individually in corn oil mixed with the diet at 50?mg?kg^?1 of the diet/day, as well as a mixture in corn oil mixed with the diet both at 50?mg?kg^?1 of the diet/day. After 150 days of treatment animals were sacrificed and enzymes and other biochemical parameters in the serum and liver were assessed. Liver weight to body weight ratio showed a significant increase in Clophen A60 and in Clophen A60?+?DEP treated rats. In the DEP, Clophen A60 and Clophen A60?+?DEP treated groups there was significant increase in liver and serum alanine aminotransferase (ALT) and acid phosphatase (ACP) activity. Aspartate aminotransferase (AST) was significantly increased in the liver and serum of DEP treated rats only. Cholesterol levels were significantly increased only in the serum and the liver of DEP treated rats. Triglyceride levels were significantly increased in the serum of treated rats and only in the liver of Clophen A60 and Clophen A60?+?DEP treated rats. Liver glycogen levels were significantly increased in DEP and Clophen A60?+?DEP treated rats. In all treated animals, there was a significant decrease in liver glutathione reductase (GR). Histology of liver showed severe vacuolations, fatty degeneration and loss of hepatic architecture in Clophen A60 and Clophen A60?+?DEP treated rats, whereas in DEP treated rats only loss of hepatic architecture and granular deposits in the hepatocytes was predominant with mild vacuolations of centrilobular and periportal area. It is evident from this study of mixture toxicity of Clophen A60 and DEP that there is no significantly enhanced toxicity due to the interaction of these two compounds. On the other hand, to some extent there is alleviation in toxicity as evidenced by enzyme ACP and AST levels in the liver. The hepatocellular damage and biliary congestion caused by these two compounds, which can be confirmed by significantly increased liver weights and elevated serum and liver enzyme levels as well as histology, was almost the same between individual and mixture treated group.     

铝碳微电解法降解水中邻苯二甲酸酯

采用铝碳微电解法降解水中邻苯二甲酸酯（PAEs）。首先考察了初始废水pH、铝碳质量比和反应时间对邻苯二甲酸二甲酯（DMP）降解率的影响,然后分别考察了超声波频率、其他金属的添加和H₂O₂加入量对铝碳微电解法降解模拟混合PAEs废水中DMP、邻苯二甲酸二乙酯（DEP）和邻苯二甲酸二丁酯（DBP）的影响。实验结果表明：在初始DMP质量浓度为20 mg/L、初始废水pH为12.0、铝碳质量比为1∶1、反应时间为30 min的条件下,DMP降解率达49.94%;在上述最佳反应条件下处理DMP,DEP,DBP的质量浓度分别为20,10,8 mg/L的模拟混合PAEs废水,当超声波频率为80 kHz时,模拟混合PAEs废水中DMP,DEP,DBP的降解率分别为63.38%,32.75%,32.23%,当铝铁质量比为100∶1时,DMP,DEP,DBP的降解率分别为59.61%,37.39%,31.50%;添加铜和H₂O₂对PAEs的降解有抑制作用。     

Predictors of urinary bisphenol A and phthalate metabolite concentrations in Mexican children

Exposure to endocrine disrupting chemicals such as bisphenol A (BPA) and phthalates is prevalent among children and adolescents, but little is known regarding important sources of exposure at these sensitive life stages. In this study, we measured urinary concentrations of BPA and nine phthalate metabolites in 108 Mexican children aged 8–13 years. Associations of age, time of day, and questionnaire items on external environment, water use, and food container use with specific gravity-corrected urinary concentrations were assessed, as were questionnaire items concerning the use of 17 personal care products in the past 48-h. As a secondary aim, third trimester urinary concentrations were measured in 99 mothers of these children, and the relationship between specific gravity-corrected urinary concentrations at these two time points was explored. After adjusting for potential confounding by other personal care product use in the past 48-h, there were statistically significant (p < 0.05) positive associations in boys for cologne/perfume use and monoethyl phthalate (MEP), mono(3-carboxypropyl) phthalate (MCPP), mono(2-ethyl-5-hydroxyhexyl) phthalate (MEHHP), and mono(2-ethyl-5-oxohexyl) phthalate (MEOHP), and in girls for colored cosmetics use and mono-n-butyl phthalate (MBP), mono(2-ethylhexyl) phthalate (MEHP), MEHHP, MEOHP, and mono(2-ethyl-5-carboxypentyl) phthalate (MECPP), conditioner use and MEP, deodorant use and MEP, and other hair products use and MBP. There was a statistically significant positive trend for the number of personal care products used in the past 48-h and log-MEP in girls. However, there were no statistically significant associations between the analytes and the other questionnaire items and there were no strong correlations between the analytes measured during the third trimester and at 8–13 years of age. We demonstrated that personal care product use is associated with exposure to multiple phthalates in children. Due to rapid development, children may be susceptible to impacts from exposure to endocrine disrupting chemicals; thus, reduced or delayed use of certain personal care products among children may be warranted.     

液液萃取—GC-MS法同时测定石化废水中双酚A和邻苯二甲酸二乙酯

建立了液液萃取（LLE）—气相色谱-质谱（GC-MS）法同时测定石化废水中双酚A（BPA）和邻苯二甲酸二乙酯（DEP）的新方法,对液液萃取条件进行了优化。最佳的液液萃取条件为：萃取剂为乙酸乙酯,水样调成酸性（pH<2）,每次加入萃取剂0.1 mL/mL、盐析剂NaCl 0.1 g/mL,萃取次数为6次,每次萃取时间为2 min。实验结果表明：在质量浓度1~100 mg/L的范围内,BPA和DEP测定标准曲线的线性关系良好;BPA和DEP的检出限（LOD）分别为5.18 μg/L和0.89 μg/L,定量限（LOQ）分别为17.11 μg/L和2.96 μg/L,回收率为81.4 %~124.9 %,相对标准偏差（RSD）（n=7）小于5.5 %。