HRGC-LRMS测定垃圾焚烧炉布袋飞灰中的二噁英类物质

利用高分辨气相色谱-低分辨质谱(HRGC-LRMS)测定了某垃圾焚烧厂布袋飞灰中的二(口恶)英类物质,结果表明对于测定二(口恶)英类浓度相对较高的垃圾飞灰而言,采用HRGC-LRMS是一种可行的方法,回收率在74％～114％之间。该飞灰样品中以二(口恶)英为主,呋喃的含量相对较低,二(口恶)英／呋喃值为4.6,二(口恶)英类物质总量为211.7ng／g,折算到毒性当量为0.69ngI-TEQ／g。     

Degradation of Acid Orange 7 by Gliding Arc Discharge Plasma in Combination with Advanced Fenton Catalysis

A new plasma–catalysis process of gliding arc discharge (GAD) plasma with zero–valent iron (ZVI) was examined. Because GAD plasma creates an acidic environment, solid iron releases ferrous ions which act as a catalyst for the decomposition of the hydrogen peroxide. A comparative study of the catalytic effects between Fe²⁺ and Fe⁰ in GAD plasma was investigated. The decolorization reactions of Acid Orange 7 (AO7) followed pseudo–first–order kinetics. And the rate constants for the process of GAD with ZVI was increased by 30% and by 19%, respectively, compared with the process of GAD alone and the process of GAD with ferrous. The investigations of solution pH and hydrogen peroxide both demonstrated that the GAD plasma induced conditions are much suitable for advanced Fenton reactions. The corrosion of ZVI in GAD plasma can give continuous ferrous ions to sustain Fenton reaction. Also, ZVI was demonstrated to have favorable reusable feature.     

N-Decane Reforming by Gliding Arc Plasma in Air and Nitrogen

Plasma cracking of n-decane is carried out in a new type of gliding arc flow reactor in the atmosphere of nitrogen and air, at a flow range of 25–45 L/min with an interval of 5 L/min. The relationship between arc evolution and discharge voltage and current signals is established by synchronous recording with high-speed camera and oscilloscope. It is recorded that the rotating frequency of the gliding arc is in the range of 81–176 Hz, which increases with the rise of the flow rate and has no direct relationship with the type of gas. When air is used as the discharge medium, although the luminous intensity of the arc is weak, arc rotation is relatively stable, and the specific input energy is higher, which is 58% higher than that of nitrogen. In addition, the partial oxidation of n-decane provides extra heat for cracking, which is helpful to improve the efficiency of plasma cracking. The cracking products mainly include hydrogen, ethylene, acetylene, methane, propylene and ethane. The concentration of each component is higher, reaching the maximum value at the flow rate of 40 L/min, with the hydrogen selectivity of 23.1%. However, when nitrogen plasma is selected, the kinds of products are reduced, containing only hydrogen, ethylene and acetylene, and the concentrations are lower than 0.5%. Two parameters, energy conversion efficiency and carbon based characterization effective cracking rate, were proposed to evaluate the cracking effect of flow reactor.

     

Degradation of 4-Chlorophenol using a Gas–Liquid Gliding Arc Discharge Plasma Reactor

The gas–liquid gliding arc discharge plasma is used directly to study degradation and dechlorination of 4-Chlorophenol (4-CP) in solution. The typical AC waveforms of discharge voltage and current revealed that the discharge behavior was not definitely periodic. The chemical oxygen demand (COD) abatement of 4-CP solution with stainless steel electrode is higher than that with aluminum or brass electrode; When air was used as carrier gas the COD abated from 1,679.2 to 190 mg/L (i.e., 88.68% abatement) after 76 min plasma treatment; Increasing gas–liquid mixing rate could also increase the degradation of 4-CP; adding appropriate amounts of Fe²⁺ or iron chips to the solution were found to be favorable for 4-CP degradation. The main intermediates of 4-CP degradation are p-benzoquinone, hydroquinone, 4-chlorocatechol, p-chloronitrobenzene, and ring cleavage products (acetic acid, glycol, propanone, and others). Furthermore, possible pathways of 4-CP degradation in solution are proposed.     

Degradation of Phenol in Aqueous Solutions by Gas–Liquid Gliding Arc Discharges

The efficiency of a gliding arc reactor designed with the aim to degrade aqueous phenol solutions is studied as a function of supply voltage, electrode gap distance, and gas–liquid flow properties. This efficiency, which steeply increases when increasing the supply voltage, can reach 96% when the minimum electrode distance is fixed at 3 mm. Experiments show that phenol degradation efficiency also depends on solution pH, Fe²⁺ addition, gas nature and gas flow rate. Furthermore, degradation pathways of phenol in aqueous solutions are proposed.     

Kinetic Modeling of Plasma Methane Conversion Using Gliding Arc

Plasma methane (CH4) conversion in gliding arc discharge was examined. The result data of experiments regarding the performance of gliding arc discharge were presented in this paper. A simulation which is consisted some chemical kinetic mechanisms has been provided to analyze and describe the plasma process. The effect of total gas flow rate and input frequency refers to power consumption have been studied to evaluate the performance of gliding arc plasma system and the reaction mechanism of decomposition.Experiment results indicated that the maximum conversion of CH4 reached 50% at the total gas flow rate of 1 L/min. The plasma reaction was occurred at the atmospheric pressure and the main products were C (solid), hydrogen, and acetylene (C2H2). The plasma reaction of methane conversion was exothermic reaction which increased the product stream temperature around 30～50℃.     

烟气中二噁英的催化降解*

催化降解是一种工业烟气的末端处理技术,该技术基于催化氧化还原反应能够实现烟气中二噁英（PCDD/Fs）在温和条件下的有效去除。目前研究较多的催化剂主要有两类：一类是Pt、Pd、Lr等贵金属型催化剂,另一类是V、Cr、W等过渡金属氧化物型催化剂。在实际应用方面,选择性催化还原（SCR）是目前最具有代表性的技术,采用V₂O₅/W(Mo)O₃-TiO₂催化剂能够同时脱除烟气中的PCDD/Fs和NO_x。本文阐述了贵金属和金属氧化物两种催化剂在温和条件下降解烟气中PCDD/Fs的反应机理和研究进展,并着重介绍了负载型V基催化剂降解PCDD/Fs的配方优化研究和影响因素,最后评述了SCR的应用情况和应用条件,以及在应用过程中催化剂的失活和中毒情况,并对该技术发展方向加以展望。     

医疗垃圾焚烧飞灰中OCDD/OCDF的球磨机械化学法降解试验研究

利用机械化学法进行含二噁英废弃物的无害化处置,是一个值得关注的研究领域.本研究以去除大部分二噁英及其它有机成分的医疗垃圾焚烧飞灰作为反应基质,添加了八氯代二噁英和呋喃(OCDD/OCDF)后,在自行研制的行星式球磨试验装置上进行了球磨机械化学法降解试验研究.实验球磨两种飞灰分别采自某回转窑热解流化多段焚烧系统和某简易固定床焚烧系统的医疗垃圾焚烧炉布袋除尘器,其中对于简易固定床焚烧处置的飞灰,OCDD和OCDF分别减少了64.7%和63.6%,氯化度由6.86降至5.53.两种飞灰处理后,平均粒径大幅缩小,比表面积、孔容积显著增加,CaCO3强度显著减弱.实验证实飞灰本身的某些组分(CaCO3等)在球磨机械化学处理过程中起到类似氧化钙(CaO)的脱氯还原剂作用,且机械化学法降解二噁英的效果显著.研究结果对实际医疗垃圾焚烧飞灰中二噁英类污染物的脱除具有指导意义.     

Surface Modification of Smectite Clay Induced by Non-thermal Gliding Arc Plasma at Atmospheric Pressure

Smectite clay from Sabga (west-Cameroon) was treated in aqueous suspension by gliding arc plasma to modify its surface properties. The evolution of the modifications was followed with the exposure time and post-discharge duration using Fourier transformed infra red spectroscopy and scanning electron microscopy. X-ray diffraction and nitrogen physisorption analyses were also performed to evaluate if both crystalline and textural properties of the material are affected by the treatment. The results obtained show that the plasma treatment causes the breakdown of structural bounds at the clay surface and induces the formation of new hydroxyl groups (Si–OH and Al–OH) on the clay edges. Crystallinity, sheet structure and textural properties are not significantly affected by the plasma treatment. However, it should be noted that an intensive treatment of the clay lowers the pH of the suspension, which subsequently induces an acid attack of the clay. In such case, the specific surface area of the clay increases. This study demonstrates that gliding arc plasma treatments can be used to activate clay minerals for environmental application.     

Scaling Up of Non-Thermal Gliding Arc Plasma Systems for Industrial Applications

Plasma Chemistry and Plasma Processing - Scaling up of transitional “warm” plasmas to industrial level gives possibility to develop plasma systems that combine advantages of thermal and...     

土壤中PCDD/Fs、PBDD/Fs、PCBs与PBDEs同步分离测试方法的研究

建立了土壤样品中氯代二英、溴代二英、多氯联苯和多溴联苯醚四类化合物的同步分离前处理方法。应用硝酸银复合硅胶柱将四类化合物分成含氯(PCBs和PCDD/Fs)和含溴(PBDEs和PBDD/Fs)两大类,再用弗罗里硅土柱分别对PCBs和PCDD/Fs、PBDEs和PBDD/Fs进行两两分离,最终实现四类结构、性质相近化合物的完全分离。该方法的回收率和相对标准偏差(RSD)分别为PCDD/Fs:61%~83%,1.4%~14.2%;PBDD/Fs:71%~110%,2.8%~14.9%;PCBs:68%~92%,3.6%~15.2%;PBDEs:81%~87%,10.9%~17.4%。方法应用于土壤样品中四类化合物的同步分析,并与目前常用的分析方法进行比对,两者间的分析结果相差不大于12.5%,验证了方法的准确性和可靠性。     

Gliding Arc Plasma Synthesis of Crystalline TiO2 Nanopowders with High Photocatalytic Activity

A warm plasma generated by gliding arc discharge, combining the advantages of both thermal and cold plasmas, is explored to synthesize TiO₂ nanopowders for the first time. Air is used as the discharge gas and titanium tetraisopropoxide aerosol is carried by N₂ into the plasma. X-ray diffraction and X-ray photoelectron spectroscopy characterizations confirm that the as-synthesized nanopowders are fully crystalline TiO₂. The weight fraction of anatase (f _A) is higher than that of rutile and increases from 68.8 to 96.8 % by increasing specific energy input (SEI) from 46 to 76 kJ/mol. The effect of SEI on specific surface area (S _BET) and BET-equivalent diameter (d _BET) of the nanopowders is investigated. The typically spheric morphology of the particles is observed by transmission electron microscopy (TEM) and the most probable d _TEM approaches the d _BET. All the as-synthesized nanopowders show a high photocatalytic activity comparable to that of Degussa P25.     

PVC化学链燃烧过程中二噁英生成研究

制备了负载硅溶胶的CaSO₄载氧体,并对其与CH₄、CO和H₂的反应特性进行了研究表征。采用管式炉实验系统,对PVC在基于CaSO₄载氧体的化学链燃烧和空气燃烧两种方式下,二噁英的生成特性进行了实验研究。结果表明,负载了硅溶胶的CaSO₄载氧体与CH₄、CO和H₂反应均接近完全转化,其中,与CH₄和H₂的反应时间显著短于CO。采用化学链燃烧方式可有效抑制PVC燃烧过程二噁英的生成,其生成量和毒性当量分别由空气燃烧中的34 172.5 pg/g及732.8 pg(I-TEQ)/g降到化学链燃烧的2 270.9 pg/g及290.2 pg(I-TEQ)/g,这主要是因为化学链燃烧过程中燃料与O₂不直接接触,显著减少了大分子碳结构的氧化断裂以及HCl向Cl₂的转化,从而抑制了二噁英的低温从头合成反应和前驱物生成反应。     

二噁英、多溴联苯醚和多氯联苯同时测定方法的研究

本实验以美国环保署1613B、1614和1668A等标准方法为基础,建立了同一样品中二噁英、多溴联苯醚和多氯联苯的同位素稀释-多层色谱柱净化-高分辨气质联用-高通量同时分析方法.该方法利用弗罗里土对二噁英组分吸附能力强的特点,采用不同极性的溶剂淋洗,先实现二噁英组分和其它两个组分的分离,再利用多溴联苯醚更易保留在硝酸银硅胶(10%)柱上的特点,实现了多溴联苯醚和多氯联苯两类化合物的分离.实验优化了样品前处理过程,纯化过程中去除了大量干扰物质,同时将三类化合物在前处理中进行分离,消除了相互干扰,实现了准确定量.纯化效果和检测限均符合美国环保署相关标准的要求.通过标准参考物的比对和实际样品的分析验证了方法的可靠性和结果的准确性.     

滑动弧电极放电等离子体作用甲烷制C2烃的工艺

采用刀片式不锈钢电极放电反应器,以Ar气为稀释气,研究了等离子体作用下甲烷转化制C2烃的工艺条件。考察了CH4流量、高频电源输入电压和电极间距等参数对甲烷转化率、C2烃选择性、收率和反应表观能耗的影响。结果表明,增加CH4流量,表观能耗随之降低;当输入电压和电极间距较小时,甲烷转化率随输入电压和电极间距的增大而增大,但输入电压和电极间距过大时,C2烃收率明显下降,积碳严重。在CH4流量14 mL/min、Ar气流量60 mL/min、高频电源输入电压22 V、电流0.44 A、电极间距4 mm的优化条件下,甲烷最高转化率为43.1%,C2烃收率、选择性和表观能耗分别为40.1%、93.2%和2.41 MJ/mol。C2烃中不饱和烃的体积分数可达95%以上。     

电感耦合等离子体质谱（ICP-MS）法测定垃圾焚烧飞灰中的重金属

基于全自动消解仪优化程序,以HNO3-HF-HClO4消解体系消解飞灰样品,通过选择合适的待测同位素以及干扰元素校正方程校正质谱干扰,建立了全自动消解-电感耦合等离子质谱(ICP-MS)法测定飞灰样品中铍、钒、铬、锰、镍、铜、锌、镉、铅等9种元素的新方法。采用嵌片技术和碰撞模式消除基体干扰,采用单一内标~(103) Rh进行信号漂移校正,9种元素校准曲线的线性相关系数均大于0.999,方法检出限在0.01～0.3μg/g。用飞灰标准物质SRM1633C进行验证,平均相对标准偏差RSD在0.54%～2.4%,加标回收率为85%～120%,各元素的测定值与标准值吻合。方法具有较好的准确度和精密度,适合垃圾焚烧产生飞灰样品中全量金属的测定。     

电感耦合等离子体原子发射光谱（ICP-AES）法测定粉煤灰中的铝

采用碳酸钠-碳酸钾-硼酸分解试样,盐酸浸取,电感耦合等离子体原子发射光谱法测定粉煤灰中的铝含量。铝的测定范围5.00%～25.00%。经加标回收实验,铝元素的加标回收率为99.6%～106%(n=3),方法准确简单,适用于粉煤灰中铝的测定。     

Effect of Inorganic Ions on the Oxidation of Methyl Violet with Gliding Arc Plasma Discharge

Gliding arc discharge process was used for the treatment of methyl violet wastewater. First, the intermediate products were studied by gas chromatography coupled with mass spectrometry and Fourier transform infrared spectrometry, and ultraviolet–visible spectrometer. Second, the effects of inorganic anions including chloride (Cl^?), carbonate (CO₃ ^2?), sulfate (SO₄ ^2?), phosphate (PO₄ ^3?), nitrate (NO₃ ^?) on the degradation efficiency of methyl violet were examined. The research results indicated that hydroxyl radicals attacked carbon atom that situated in the center of dye molecule, and the conjugating structure of methyl violet was destroyed, and dye was degraded and decolored, so a possible degradation pathway was proposed by the analysis of intermediate products detected. The methyl violet degradation rate decreased with increasing anions concentrations, and their order of sequence according to the inhibition reaction was CO₃ ^2? > Cl^? > SO₄ ^2? > NO₃ ^?.     

Preparation of SnO2–TiO2/Fly Ash Cenospheres and its Application in Phenol Degradation

SnO₂–TiO₂/fly ash cenospheres (FAC) were prepared via hydrothermal method and used as an active photocatalyst in a photocatalytic system. Scanning electron microscopy, X‐ray diffraction analysis, UV–Vis diffuse reflectance spectroscopy, Fourier transform infrared spectroscopy and N₂ adsorption–desorption measurements were used to determine the structure and optical property of SnO₂–TiO₂/FAC. Phenol was selected as the model substance for photocatalytic reactions to evaluate catalytic ability. Results showed that the degradation efficiency of phenol by SnO₂–TiO₂/FAC was 90.7% higher than that decomposed by TiO₂/FAC. Increased efficiency could be due to the enhanced synergistic effect of semiconductors and FAC could provide more adsorption sites for the pollutant in the photocatalytic reaction. Furthermore, SnO₂–TiO₂/FAC composites exhibited excellent photocatalytic stability in four reuse cycles. Radical‐trapping experiments further revealed the dominating functions of holes in the photocatalytic reaction.