基于质量流率离散方法的液氨储罐泄漏扩散模型的研究

针对高斯模型中忽略物质质量流率的变化导致模拟结果与实际存在偏差的问题,将物质质量流率根据泄漏持续时间进行离散化处理,获得不同时间段的物质泄漏量,以此对高斯烟团叠加模型进行修正,得到若干烟团不同时刻的浓度分布模型,并以液氨储罐泄漏事故为研究对象,获得较恒速泄漏条件具有明显差异的有毒云团危害区域。针对其后果偏差产生的原因——罐内初始压力Pn及储罐的充装水平α进行研究,分别比较在不同的Pn及α取值情况下泄漏后果的变化及差异。研究表明,增大Pn或减小α能够有效减小液氨泄漏的危害距离,并且会减小恒速泄漏条件分析后果的偏差,对液氨等罐区的管理提供依据。     

P204为载体的微乳液膜处理焦化厂含酚废水的研究

研究了以P204为载体的Span80/煤油/NaOH微乳液膜配方及其稳定性,通过该液膜体系萃取废水中酚的研究,考察了P204与Span80的质量比、乳水比、萃取时间、油相的重复使用次数等对除酚率的影响。实验结果表明,在优化条件下,采用P204/Span80/煤油/NaOH微乳液膜处理焦化厂中高浓度的含酚废水,一次性除酚率均高于99%,且对高浓度含酚废水的除酚效果更佳;微乳液膜不仅稳定性好,传质速率高,除酚效率高,而且可自动破乳,油相可重复使用。     

塑料管材输配水过程中有机物释放规律研究

研究了目前给水管网中常用的3种塑料管材,未增塑聚氯乙烯(uPVC),聚乙烯(PE)和无规共聚聚丙烯(PPR)管在输配水过程中有机物的释放规律.通过静态管段实验模拟给水管网中不同输配水状态,选取总有机碳(TOC)为综合评价指标,考察了不同塑料管材中有机物随时间的迁移释放特性,并分析了管材有机物释放对管网水中余氯消耗的影响.随着管材输配水次数的增加,uPVC管释放至水中的TOC浓度和TOC释放速率分别在0.03mg/L和0.04μg/(d?cm2)以下,而PE管和PPR管在输配水过程中TOC的释放浓度和释放速率在初期最大[PE: 0.19mg/L,0.25μg/(d?cm2);PPR:0.07mg/L,0.09μg/(d?cm2)],且后期递减并趋于平稳[PE:0.03~0.08mg/L,0.05~0.10μg/(d?cm2);PPR:0.01~0.03mg/L, 0.01~0.04μg/(d?cm2)].随着水力停留时间的增加,不同管材释放的有机物浓度持续升高.不同管材有机物的释放能力排序为:PE>PPR>uPVC.各管材的有机物释放特性直接影响管网水的余氯消耗特性,且管材的有机物释放量越多,管网水的余氯消耗越快.PE管的使用易引起水体有机污染问题.本研究明确了3种常用塑料管材的有机物释放规律,将进一步为与塑料管材安全性能评价相关的国家标准的修订提供理论依据.     

LNAPL在砂质含水层中动态迁移的电阻率法监测试验研究

在海滨潮间带采集细砂,通过室内柴油泄漏模拟试验,利用自制电阻率监测系统对轻非水相液体在砂土-地下水系统垂向渗透过程进行电阻率变化动态监测;通过配制不同含油率砂土测定其静态电阻率变化规律,探讨电阻率变化的影响因素;最后取样分析测定污染含水介质稳定后含水率及含油率,对监测结果有效性进行了验证;并利用显微成像法对污染砂土进行了微观形态分析.结果表明,柴油污染砂土微观形态上胶结现象明显;柴油渗透海滨砂土过程电阻率大小同含水饱和度,比电阻率和含油饱和度之间存在良好的相关性,均可用Archie公式拟合,n值分别为2.36和0.15;通过电阻率测定可以有效估算柴油透镜体厚度;电阻率随深度的变化可以反映含油率和含水率的垂向分布.本研究为轻质油品储罐或者海上油品输运过程泄露造成的海滨砂土地下污染扩散过程监测及机制研究提供了一种有效的方法,也可为其他典型石油泄漏污染场地的电阻率法探测或监测提供参考.     

实时合成水滑石分离模拟放射性核素锶的研究

采用实时合成水滑石的方法从高放废液中分离模拟放射性核素锶,通过单因素实验并借助XRD分析确定了最佳分离实验条件,同时,运用FTIR、SEM等技术手段对合成的含锶水滑石的结构、形貌进行了分析.结果表明,当Sr2+初始浓度为70mg.L-1、pH值为10.5、n(Mg+Sr)/n(Al)为3时,锶的去除率最高可达95%以上;XRD和SEM分析结果表明,锶嵌入了水滑石的晶格中,合成的含锶水滑石形貌为层状六边形;含锶水滑石煅烧产物主要为尖晶石,且煅烧产物中未见氧化锶,表明嵌入到水滑石晶格中的锶在煅烧后存在于尖晶石的晶体结构中.     

湿热水解预处理对餐厨废弃物液相物质转化的影响

设计湿热水解预处理温度(80、120、150和200 ℃)、时间(40、50、60和70 min)、加水量(40%、60%、80%和100%)的三因素四水平正交试验,研究湿热水解预处理对餐厨废弃物液相可浮油脱出量、ρ(COD_Cr)、糖类、ρ(VFA)(VFA为挥发性脂肪酸)等的影响. 结果表明:餐厨废弃物经湿热水解预处理后可浮油脱出量明显提高. 在150 ℃、加水量40%、处理60 min的湿热水解条件下,可浮油脱出量(67.7 mL/kg)最高,比未经预处理的对照组提高了2.65倍;同时,ρ(还原糖)和ρ(总糖)也达到最高,分别比对照组增加了16.29%和38.92%.随着温度升高和处理时间的延长,ρ(COD_Cr)不断升高,在200 ℃、加水量40%、处理70 min的湿热水解条件下,ρ(COD_Cr)最高为109.729 g/L,比对照组提高了1.39倍. 经湿热水解预处理后,ρ(VFA)也呈显著增加,在200 ℃、加水量100%、处理40 min的湿热水解条件下,ρ(VFA)达到最高,比对照组增加了66.26%.预处理后,ρ(乙酸)、ρ(丁酸)升高,ρ(乙醇)降低. 方差、极差综合分析表明,在湿热水解过程中,温度是影响餐厨废弃物液相物质转化的主控因子,其次是加水量和时间.      

高效液相色谱-电感耦合等离子体质谱联用测定生物样品中的有机汞

建立了酸提取-高效液相色谱-电感耦合等离子体质谱联用技术(HPLC-ICP-MS)测定生物样品中甲基汞、乙基汞、苯基汞等3种有机汞的分析方法。鱼肉和贝类样品经盐酸消解,苯萃取,硫代硫酸钠溶液反萃取后,采用醋酸铵/L-半胱氨酸缓冲盐及甲醇体系组成的流动相按一定比例进行梯度洗脱,经前处理的生物样品在液相色谱中经C18柱分离后,进入电感耦合等离子体质谱检测其甲基汞、乙基汞和苯基汞的浓度。3种有机汞化合物均在0.50~50.0μg/L范围内呈现良好的线性关系,线性相关系数(r)均大于0.9998。方法检出限为0.010~0.038mg/kg;3种有机汞样品加标的RSD均小于12.2%;两个水平的加标回收率在50.8~129%。     

The structure of the fire fighting foam surfactant Forafac®1157 and its biological and photolytic transformation products

For several decades, perfluorooctane sulfonate (PFOS) has widely been used as a fluorinated surfactant in aqueous film forming foams used as hydrocarbon fuel fire extinguishers. Due to concerns regarding its environmental persistence and toxicological effects, PFOS has recently been replaced by novel fluorinated surfactants such as Forafac®1157, developed by the DuPont company. The major component of Forafac®1157 is a 6:2 fluorotelomer sulfonamide alkylbetaine (6:2 FTAB), and a link between the trade name and the exact chemical structure is presented here to the scientific community for the first time. In the present work, the structure of the 6:2 FTAB was elucidated by ¹H, ¹³C and ¹⁹F nuclear magnetic resonance spectroscopy and high-resolution mass spectrometry. Moreover, its major metabolites from blue mussel (Mytilus edulis) and turbot (Scophthalmus maximus) and its photolytic transformation products were identified. Contrary to what has earlier been observed for PFOS, the 6:2 FTAB was extensively metabolized by blue mussel and turbot exposed to Forafac®1157. The major metabolite was a deacetylated betaine species, from which mono- and di-demethylated metabolites also were formed. Another abundant metabolite was the 6:2 fluorotelomer sulfonamide. In another experiment, Forafac®1157 was subjected to UV-light induced photolysis. The experimental conditions aimed to simulate Arctic conditions and the deacetylated species was again the primary transformation product of 6:2 FTAB. A 6:2 fluorotelomer sulfonamide was also formed along with a non-identified transformation product. The environmental presence of most of the metabolites and transformation products was qualitatively demonstrated by analysis of soil samples taken in close proximity to an airport fire training facility.     

Plant steroid hormones produced under Ni stress are involved in the regulation of metal uptake and oxidative stress in Brassica juncea L

Brassinosteroids (BRs) are involved in the amelioration of various biotic and abiotic stresses. With an aim to explore the role of BRs under heavy metal stress, plants of Brassica juncea L. were grown in pots. The plants were subjected to various concentrations of Nickel metal (0.0, 0.2, 0.4 and 0.6 mM) and harvested on 60th day in order to observe the expression of these hormones. The isolated BRs from the leaves of Brassica plants characterized by GC-MS include 24-Epibrassinolide (24-EBL), Castasterone, Dolicholide and Typhasterole. The effect of isolated 24-EBL was studied on Ni metal uptake and antioxidative defense system in 60 d old plants of Brassica. It was observed that 24-EBL significantly increased the activities of stress ameliorating enzymes and lowered the metal uptake in plants. This is the first report in B. juncea L. plants showing the expression of BRs under metal treatments and effect of the isolated 24-EBL on metal uptake and in oxidative stress management.     

关于GB18218-2009标准中易燃气体临界量分析

分析了我国重大危险源辨识标准的修订工作及评价方法的研究状况。新标准明确监管对象为危险化学品,并通过设立危险化学品类别及其临界量的方式拓展了监管范围。我国采用的重大危险源评价方法着重关注危险物质的种类和数量,以物质的固有危险性作为评判依据,更符合我国危险化学品现状。利用蒸气云爆炸及沸腾液体扩展蒸气爆炸两类事故模型对GB18218-2009中临界量的易燃气体可能的致害范围进行模拟分析。研究认为,危险化学品重大危险源的辨识是在物质固有危险性的基础上,综合考虑了事故发生频率、次要危险性、化学反应活性及对环境影响等诸多因素。