Conversion characteristics and mechanism analysis of gaseous dichloromethane degraded by a VUV light in different reaction media

The photodegradation of gaseous dichloromethane (DCM) by a vacuum ultraviolet (VUV) light in a spiral reactor was investigated with different reaction media and initial concentrations. Through the combination of direct photolysis, O₃ oxidation and HO. oxidation, DCM was ultimately mineralized into inorganic compounds (such as HCl, CO₂, H₂O, etc.) in the air with relative humidity (RH) of 75%-85%. During the photodegradation process, some small organic acids (including formic acid, acetic acid) were also detected and the intermediates were more soluble than DCM, providing a possibility for its combination with subsequent biodegradation. Based on the detected intermediates and the confirmed radicals, a photodegradation pathway of DCM by VUV was proposed. With RH 75%-80% air as the reaction medium, the DCM removal followed the second-order kinetic model at inlet concentration of 100-1000 mg/m³. Kinetic analysis showed that the reaction media affected the kinetic constants of DCM conversion by a large extent, and RH 80% air could cause a much lower half-life for its conversion. Such results supported the possibility that VUV photodegradation could be used not only for the mineralization of DCM but also as a pretreatment before biodegradation.     

基于气团老化程度对挥发性有机物分类改善PMF源解析效果

VOCs作为臭氧与二次有机气溶胶的关键前体物,其来源解析对臭氧和颗粒物的协同控制至关重要.但多数VOCs具有反应性,不能完全满足受体模式对污染源排放化学物质组成稳定的假设要求,导致受体模式解析结果不能精准反映实际源贡献.为解决因不同VOCs反应活性不同而导致的组分相对变化与模型假设不符的问题,引入VOCs老化程度来表征...     

基于细管流紫外反应系统探讨紫外和真空紫外/紫外辐照下水中微量磺胺甲噻二唑的光降解效果

水环境中存在的微量有机污染物可在较低浓度下对人类造成较大的危害.基于细管流紫外反应系统(MFPS)研究了典型微量有机污染物磺胺甲噻二唑(SML)在紫外(UV)和真空紫外/紫外(VUV/UV)辐照下的光降解过程,发现SML在VUV/UV辐照下的降解速率明显快于UV辐照.采用MFPS测定了各光化学动力学参数:UV和VUV/UV辐照下光子剂量基反应速率常数分别为0.88×10~3和4.64×10~3m~2·einstein-1;量子产率分别为0.227和0.379;羟基自由基(HO·)和SML的二级反应速率常数测定为6.59×10~9L·mol~(-1)·s~(-1).探讨了pH值和初始SML浓度对降解效果的影响,结果表明,VUV/UV辐照下pH 7.0时的SML降解速率达到最大,而UV辐照下SML的降解速率随pH增加而逐渐增大;初始SML浓度的增大会降低UV和VUV/UV辐照下的降解速率.此外,本研究表明MFPS作为实验室光反应系统可快速、准确地测量各光反应动力学参数,VUV/UV在去除水中微量有机污染物方面的效果优于UV,可较好的处理水中微量有机污染物.     

烘房VOCs废气治理技术路线探析

以集装箱涂装生产线烘房VOCs废气治理为例,分别采用蓄热式热力焚烧（RTO）-热能回用工艺与活性炭吸附-蒸汽脱附-冷凝再生工艺,通过工程应用中采集的各项运行数据,对2种工艺在集装箱烘房VOCs废气处理中的特点进行了分析和探讨.结果表明,2种工艺均能实现废气回收利用的目的;相对活性炭吸附-蒸汽脱附-冷凝再生工艺,RTO-热能回用工艺具有更好的经济效益和环境效益.     

Photodegradation of perfluorooctanoic acid by 185 nm vacuum ultraviolet light

The photodegradation of persistent and bioaccumulative perftuorooctanoic acid （PFOA） in water by 185 nm vacuum ultraviolet （VUV） light was examined to develop an effective technology to deal with PFOA pollution. PFOA degraded very slowly under irradiation of 254 nm UV light. However, 61.7% of initial PFOA was degraded by 185 nm VUV light within 2 h, and defluorination ratio reached 17.1%. Pseudo first-order-kinetics well simulated its degradation and defluorination. Besides, fluoride ion formed in water, 4 shorter-chain perfluorinated carboxylic acids （PFCAs）, that is, perfluoroheptanoic acid, perfluorohexanoic acid, perfluoropentanoic acid, and perfluorobutanoic acid. These were identified as intermediates by LC-MS measurement. These PFCAs consecutively formed and further degraded with irradiation time. According to the mass balance calculation, no other byproducts were formed. It was proposed that PFCAs initially are decarboxylated by 185 nm light, and the radical thus formed reacts with water to form shorter-chain PFCA with one less CF2 unit.     

燃烧法处理石化企业VOCs试验研究

基于加热炉技术对石化企业VOCs进行直接燃烧处理,采用低温催化燃烧催化剂进行了相应试验。结果表明:催化燃烧法适用于于低浓度VOCs治理,热力燃烧法则适用于不同组成与浓度VOCs的综合治理;在温度≤320℃、空速≥12000 h-1的条件下,低温催化燃烧技术VOCs排放浓度可满足DB31/933—2015要求(≤70 mg/m^3);在VOCs浓度高达30000 mg/m^3情况下,经过750~850℃的热力燃烧技术处理后,VOCs排放浓度≤20 mg/m^3。     

降解VOCs的有机-无机光催化剂研究进展

挥发性有机物（VOCs）带来了诸多危害,VOCs治理已成研究热点。光催化降解VOCs因其低成本、无二次污染、节能、高矿化率等优点被广泛研究。TiO₂、Bi₂WO₆、MOF和量子点等光催化剂已应用于VOCs的降解,并在此基础上构建一种新型有机-无机复合光催化剂。在构建有机-无机复合光催化剂的过程中,从复合催化剂的有机及无机组分、催化剂结构、光生电子调控等方面研究,以期为制备降解VOCs的新型有机-无机复合光催化剂提供新的研究思路。     

挥发性有机物(VOCs)的不同化学去除途径:城市与区域站点的对比

VOCs在大气中主要是与OH自由基、NO₃自由基和O₃等反应氧化去除,部分OVOCs的自身光解也是重要的化学去除途径.本研究基于2018年和2019年秋季在珠三角地区的城市和区域站点的外场观测实验,使用VOCs、常规痕量气体及气象参数的观测数据,对烷烃、烯烃、芳香烃和OVOCs等VOCs组分不同化学去除途径的去除速率进行分析.结果表明,烷烃和芳香烃主要通过与OH自由基反应去除,最高占比超过99%.与NO₃自由基和O₃的反应可贡献烯烃去除速率的80%以上,特别是一些天然源的烯烃(如单萜烯)与NO₃自由基的氧化去除是贡献最大的氧化途径.光解是甲醛最重要的去除途径,在两个站点均达到了50%以上,酮类的光解贡献会高于其他OVOCs类物质.OH自由基的氧化去除途径在城市和区域站点的人为源及天然源VOCs去除中占主导地位.区域站点,烯烃尤其是天然源的烯烃物种,与NO₃自由基和O₃反应的贡献要高于城市站点.本研究对促进不同VOCs物种在大气中的去除...     

Low-temperature VOCs oxidation performance of Pt/zeolites catalysts with hierarchical pore structure

Different zeolites supported Pt catalysts with micro-mesoporous structure were prepared by organic base tetrapropylammonium hydroxide (TPAOH) treatment and their catalytic oxidation activity for various volatile organic compounds (VOCs) were evaluated. The results reveal that the synergistic effect between Pt nanoparticles and surface acid sites plays an important role in VOCs low-temperature removal. The small size and high dispersion of Pt nanoparticles on the surface of the zeolites would promote the catalytic oxidation of aromatics and alkanes over the Pt/zeolite catalysts, while strong acidity and abundant acid sites of catalysts are in favour of the oxidation of the VOCs containing N and O heteroatoms. In addition, it was found that Pt/ZSM-5 catalyst exhibits the highest oxidation activity for various VOCs low-temperature removal amongst all the catalysts due to the balance of both Pt dispersion and abundant acid sites in the catalyst. This comprehensive consideration should be very helpful when designing and preparing novel catalysts for the low-temperature removal of VOCs.     

机动车尾气排放VOCs源成分谱及其大气反应活性

选取轻型汽油车、重型柴油车和摩托车等城市典型机动车种分别采用底盘测功机及实际道路实验,结合SUMMA罐采样的方法,获得了小轿车、出租车、公交车、卡车、摩托车和LPG助动车的尾气VOCs样品,利用气相色谱-质谱分析了各车型机动车尾气VOCs的浓度及其物种组成.结果表明,轻型汽油车尾气VOCs以甲苯、二甲苯等芳香烃为主,占43.38%～44.45%;重型柴油车以丙烷、n-十二烷及n-十一烷等烷烃组分为主,占46.86%～48.57%,还有13.28%～15.01%的丙酮等含氧特征组分;摩托车与LPG助动车的主要成分为乙炔,分别占39.75%和76.67%左右.各车型中,摩托车和轻型汽油车尾气VOCs的化学活性显著高于重型柴油车辆,以上海市为例,其大气化学活性贡献分别占55%和44%左右,是影响城市和区域大气氧化能力的关键污染源,其中以甲苯、二甲苯、丙烯、苯乙烯等关键活性物种的贡献最大.