Research on the degradation mechanism of pyridine in drinking water by dielectric barrier discharge

Pyridine, an important chemical raw material, is widely used in industry, for example in textiles,leather, printing, dyeing, etc. In this research, a dielectric barrier discharge(DBD) system was developed to remove pyridine, as a representative type of nitrogen heterocyclic compound in drinking water. First, the influence of the active species inhibitors tertiary butanol alcohol(TBA),HCO_3~-, and CO_3~(2-)on the degradation rate of pyridine was investigated to verify the existence of active species produced by the strong ionization discharge in the system. The intermediate and final products generated in the degradation process of pyridine were confirmed and analyzed through a series of analytical techniques, including liquid chromatography–mass spectrometry(LC–MS), high performance liquid chromatography(HPLC), ion chromatography(IC), total organic carbon(TOC) analysis, ultraviolet(UV) spectroscopy, etc. The results showed that the degradation of pyridine was mainly due to the strong oxidizing power of ozone and hydroxyl radical produced by the DBD system. Several intermediate products including 3-hydroxyl pyridine, fumaric acid, 2, 3-dihydroxypyridine, and oxalic acid were detected. Nitrogen was removed from the pyridine molecule to form nitrate. Through analysis of the degradation mechanism of pyridine, the oxidation pathway was deduced. The study provided a theoretical and experimental basis for the application of DBD strong ionization discharge in treatment of nitrogen heterocyclic compounds in drinking water.     

单光子/光电子在线质谱实时分析聚氯乙烯热分解/燃烧产物

实验室研制了低能光电子磁场增强电离(MEPEI)和单光子电离(SPI)复合电离源,该电离源具有电离化合物范围宽、碎片离子少、质谱图简单等优点,结合飞行时间质谱(TOF-MS)实现了聚氯乙烯(PVC)热分解/燃烧产物的在线分析.针对不同的目标化合物,MEPEI/SPI复合电离源通过调节电离区电场强度,可以快速在SPI和SPI-MEPEI之间切换.PVC热分解/燃烧产物中电离能大于光子能量(10.60 eV)的HCl和CO2(12.74 eV、13.77 eV)利用MEPEI模式电离;而烯烃、二氯乙烯、苯系物、氯苯、苯乙烯、茚满及萘系物等可通过SPI-MEPEI复合模式电离.通过实时监测PVC主要燃烧产物的信号强度随温度的变化趋势可推断出,PVC燃烧产物主要是通过两种机制生成:①250～370℃时,PVC发生脱氯及分子内环化反应,产生大量的HCl、苯和萘;②380～510℃时,PVC发生分子间交联反应,生成烷基芳烃,如甲苯和二甲苯/乙苯等.实验结果表明,SPI/SPI-MEPEI复合离子源TOF-MS分析速度快,应用范围广,在在线分析中具有广泛的应用前景.     

Iron and lead ion adsorption by microbial flocculants in synthetic wastewater and their related carbonate formation

Although microbial treatments of heavy metal ions in wastewater have been studied, the removal of these metals through incorporation into carbonate minerals has rarely been reported. To investigate the removal of Fe^3＋ and Pb^2＋, two representative metals in wastewater, through the precipitation of carbonate minerals by a microbial flocculant （MBF） produced by Bacillus mucilaginosus. MBF was added to synthetic wastewater containing different Fe^3＋ and Pb^2＋ concentrations, and the extent of flocculation was analyzed. CO2 was bubbled into the mixture of MBF and Fe^3＋/Pb^2＋ to initiate the reaction. The solid substrates were analyzed via X-ray diffraction, transmission electron microscopy and energy dispersive spectroscopy. The results showed that the removal efficiency decreased and the MBF adsorption capacity for metals increased with increasing heavy metal concentration. In the system containing MBF, metals （Fe^3＋ and Pb^2＋）, and CO2, the concentrated metals adsorbed onto the MBF combined with the dissolved CO2, resulting in oversaturation of metal carbonate minerals to form iron carbonate and lead carbonates. These results may be used in designing a method in which microbes can be utilized to combine CO2 with wastewater heavy metals to form carbonates, with the aim of mitigating environmental problems.     

矿产资源开发与矿山环境保护战略研究

本文在收集大量数据资料基础上,阐述了我国矿产资源特征与开发现状,论述了我国主要矿山地质环境问题及其危害,深刻剖析了产生诸多矿山地质环境问题的根源,提出了矿产资源可持续开发利用与矿山环境保护的对策建议。为促进矿产资源开发与矿山环境保护协调发展提供参考。     

浅议环境法的绿色专利

人们通常强调新颖性和经济效用的一个创新,而忽略了对环境造成的影响。这一思想体现到制度设计专利制度。一般来说,如果能够通过三个条件：新颖性、实用性和创新性,可授予专利。这种制度设计制约思维过程中创新者的回报,他们努力发明一件新颖的且有利可图的专利,但是忽略了对环境造成的影响。因此,牺牲的最终是环境。在这项研究中,试图探索一种体制上的补救。在为了改变科技发展的方向,建议完善政策背景下的创新,特别是专利制度。引进一个新的考核标准,绿色专利制度,并探讨其可行性和可能带来的影响。通过把这项环保的关注到专利审查,专利制度可以鼓励创新发明的＂创新,实用和绿色＂的产品以及程序,称之为＂绿色专利＂。     

基于生命周期的产品碳足迹评价与核算分析

近年来,越来越多的企业对其产品进行碳足迹评价,评价方法主要采用产品碳足迹评价标准提供的碳计量方程,如GHG Protocol、ISO14064、PAS 2050、TS Q 0010等。在介绍相关评价标准的基础上,分析了产品碳足迹的评价步骤,最后利用河北盛华化工有限公司生产的PVC产品为例,给出了基于生命周期的B2B模式的产品碳足迹评价的案例。为企业及相关机构开展碳足迹评价提供借鉴作用。     

O3/H2O2降解水中扑灭通效能研究

利用拟一级降解速率常数表征O3/H2O2对扑灭通(Prometon)的氧化效能,探讨了n(H2O2)/n(O3)、pH值、水质和碳酸氢根离子对去除的影响,对有机氧化产物进行了气相和液相质谱分析,以离子色谱法测定了反应过程中产生的NO3-,在此基础上对扑灭通降解途径进行了研究.结果表明,扑灭通初始浓度2 mg.L-1,反应温度25℃,O3投量13 mg.L-1时,最佳反应条件为n(H2O2)/n(O3)=0.7,体系pH为7～8;扑灭通在自来水中的去除效果好于纯水;HCO3-浓度>50 mg.L-1时,对扑灭通的氧化有明显的抑制作用.液质和气质的分析结果表明扑灭通并未开环,氧化过程中扑灭通三嗪环支链上的2个异丙基首先被氧化脱去,离子色谱检测到的NO3-是三嗪环支链胺基氧化的产物.     

水产品中甲氰菊酯残留的ELISA快速检测

为快速检测水产品中甲氰菊酯的残留,应用水溶性碳化二亚胺(EDC)法将甲氰菊酸与牛血清白蛋白(BSA)和卵清蛋白(OVA)偶联,合成了甲氰菊酯的人工免疫抗原和包被抗原.免疫抗原经紫外扫描和聚丙烯酰胺电泳验证构建成功,用此抗原免疫试验兔子,获得了甲氰菊酯的多克隆抗体.经检测,抗体对甲氰菊酯具有较好的特异性和灵敏性.在此基础上建立了水产品中甲氰菊酯残留的间接ELISA检测法.理想的甲氰菊酯-OVA包被抗原质量浓度为1.6 mg/L,酶标二抗(羊抗兔IgG-HRP)的稀释度为1∶1000,多抗的稀释度为1∶3 200,最适检测范围为20～200 μg/kg,在实际样品检测时的最低检出限为20 μg/kg,接近或达到气相色谱法的测定水平,但检测速度大大提高,可在3 h内完成近百个样品的分析,适合甲氰菊酯的快速检测.     

矿区可持续发展能力建设中生态环境管理研究

实现矿区的可持续发展有赖于发展模式的转变,转变传统的生态环境管理的基本观念,提出要完善和优化矿区的生态环境管理体制,建立矿区"环境-资源-经济"信息管理系统和生态环境综合分析决策模型,寓经济发展于环境管理中,寓环境管理建设于经济发展中,寓矿区发展于环境和经济的协调发展之中,推进矿区持续发展,为矿区环境保护和经济发展建立一个和谐的可持续发展模式.     

碳氮比对废水好氧脱氮中含氮气态产物的影响

针对目前人们对好氧脱氮中气态产物认识不清的问题,采用SBR反应器,以人工配制的NO3--N废水为处理对象,对影响好氧脱氮的COD/N进行了深入研究,测定了三种主要含氮气态产物(NO、NO2、N2O),揭示了好氧状态下生物脱氮的途径和机理。通过对COD/N分别为9、12、15、18的系统氮元素的全程跟踪测定,得到系统内各含氮化合物的变化规律。结果表明,三种气体的产生同COD/N有着密切的关系,低C/N会导致NO、NO2和N2O的积累,最多达总脱氮量的9%。研究结果还表明当进水COD/N为15时,既保证了良好的脱氮效果且抑制了NO、NO2、N2O三种有害气体的大量产生。