介质阻挡等离子体放电与催化联用技术分解苯

采用介质阻挡等离子体放电与催化剂MnO₂联用技术对苯去除进行了研究.结果表明,加入MnO₂可充分利用O₂和产生于介质阻挡等离子放电区的O₃,能够增加苯氧化分解为CO₂的程度,且苯去除的能量效率是不用催化剂时的2倍.催化剂MnO₂苯去除率有显著影响.当能量密度低于564J/L时,MnO₂离放电区的距离越近,苯的去除效果越好;当能量密度高于1051J/L时,苯的去除效果与MnO₂离放电区的距离有关并有一个最佳值.阐述了苯在等离子体放电区以及MnO₂上的氧化机理.     

氮掺杂生物炭催化臭氧对于布洛芬的降解特性与机制

系统研究了新型氮掺杂生物炭材料(N-C)催化臭氧对于水中布洛芬(IBP)的氧化降解效能及机制,并深入探究了初始pH、臭氧投加量、催化剂投加量、不同阴离子和背景水质条件对IBP降解效率的影响.结果 表明,相较于一些常见的碳基催化剂(g-C3N4、生物炭、颗粒活性炭)及金属催化剂(MnO2、Fe3O4),N-C催化臭氧体系...     

介质阻挡放电中添加乙炔对NO脱除的影响

利用介质阻挡放电(DBD)进行模拟烟气脱除NO实验,通过改变乙炔体积分数和烟气水蒸汽含量研究添加乙炔对NO脱除效率的影响.结果表明:烟气中添加乙炔强化了NO氧化作用,随着乙炔体积分数的提高,NO脱除率逐渐增加.在NO/N2/O2/C2H2/H2O体系中,水的电负性和离解反应消耗大量高能电子,降低了活性自由基的生成,NO脱除速率随之减慢;能量密度低于400 J·L-1时,相对湿度(RH)为0的情况下脱出效果最好.但随着能量密度的增加,H2O不会影响最终的NO脱除率;H2O的添加可以产生更多的·OH自由基,促进NO2向HNO3转化,使出口NO2浓度大幅度降低.     

Efficient degradation of chlorobenzene in a non-thermal plasma catalytic reactor supported on CeO2/HZSM-5 catalysts

Chlorobenzene removal was investigated in a non-thermal plasma reactor using CeO₂/HZSM-5 catalysts. The performance of catalysts was evaluated in terms of removal and energy efficiency. The decomposition products of chlorobenzene were analyzed. The results show that CeO₂/HZSM-5 exhibited a good catalytic activity, which resulted in enhancements of chlorobenzene removal, energy efficiency, and the formation of lower amounts of by-products. With regards to CO₂ selectivity, the presence of catalysts favors the oxidation of by-products, leading to a higher CO₂ selectivity. With respect to ozone, which is considered as an unavoidable by-product in air plasma reactors, a noticeable decrease in its concentration was observed in the presence of catalysts. Furthermore, the stability of the catalyst was investigated by analyzing the evolution of conversion in time. The experiment results indicated that CeO₂/HZSM-5 catalysts have excellent stability: chlorobenzene conversion only decreased from 78% to 60% after 75 hr, which means that the CeO₂/HZSM-5 suffered a slight deactivation. Some organic compounds and chlorinated intermediates were adsorbed or deposited on the catalysts surface as shown by the results of Fourier Transform Infrared (FT-IR) spectroscopy, scanning electron microscope (SEM) and energy dispersive X-ray spectroscopy (EDS) analyses of the catalyst before and after the reaction, revealing the cause of catalyst deactivation.     

Ti/Ti4O7阳极电化学氧化降解水中的美托洛尔

等离子喷涂法制备了钛基亚氧化钛电极(Ti/Ti_4O_7),以该电极为阳极,研究了电化学氧化法对水中美托洛尔的去除效果.考察了电流密度(5~25 mA·cm~(-2))、极板间距(5~25 mm)和初始浓度(3~50 mg·L~(-1))对美托洛尔电化学降解效率的影响;分析美托洛尔电化学降解过程中溶液总有机碳(TOC)和毒性的变化,鉴别反应中间产物并计算其毒性.研究表明:Ti/Ti_4O_7阳极电化学降解美托洛尔反应符合一级反应动力学规律(R20.95),降解效率随电流密度的增大而增大,随极板间距和初始浓度的增大而减小;TOC去除率在反应40 min后可达56.5%;反应过程中产生了质合比为266、250、223和207的中间产物,造成美托洛尔溶液的生物毒性在电化学反应过程中先升高后下降.     

Study on catalysts for combustion of lean CH4

In this study, cerarnics honeycomb-supported ABO₃ perovskite type oxides were preparedby changing the composition of A and B site cations, and observed their activities for lean CH₄ oxidation. In the case of change in A site composition La_0.3Sr_0.2MnO₃ and La_0.6Sr_0.4MnO₃ is the mostactive catalysts for 1 v% CH₄ and 2 v% CH₄ respectively. But LaMn_0.5Co_0.5O₃ oxide is the best ac-tive catalyst for 1-2v% CH₄ among the oxides by changing B site compositions of LaBO₃ and su-perior to La_0.3Sr_0.2MnO₃ and La_0.6S_0.4MnO₃catalysts.Adding trace Pd improved the activity and characteristics of space velocity for LaMn_0.5CO_0.5O₃and La_0.3Sr_0.2MnO₃ Although LaMn_0.5Co_0.5O₃ +Pd (0.03 wt%) was less active than the Pd catalyst,the activity was more than Pt catalyst at a conversion level below 90%.     

低温等离子体与催化剂联用降解空气中低浓度的苯

采用介质阻挡放电(DBD)与催化剂(MnO2,TiO2)联用降解空气中低浓度的苯(C6H6)。考察了苯的转化率、产物选择性、能量效率随能量密度的变化关系。研究发现,苯的转化率随能量密度的增加而增加,当注入DBD反应器的能量密度为1200J/L时,等离子体协同催化剂MnO2氧化苯的转化率达到了92%。苯的氧化产物为一氧化碳(CO)和二氧化碳(CO2),进而阐述了其氧化机理。当能量密度为430J/L时,在催化剂MnO2,TiO2存在的条件下,能量效率分别达到了0.062与0.043mol/kWh。     

Experimental study of NO2 reduction in N2/Ar and O2/Ar mixtures by pulsed corona discharge

Non-thermal plasma technology has been regarded as a promising alternative technology for NOx removal. The understanding of NO2 reduction characteristics is extremely important since NO2 reduction could lower the total NO oxidation rate in the plasma atmosphere. In this study, NO2 reduction was experimentally investigated using a non-thermal plasma reactor driven by a pulsed power supply for different simulated gas compositions and operating parameters. The NO2 reduction was promoted by increasing the specific energy density （SED）, and the highest conversion rates were 33.7%, 42.1% and 25.7% for Ar, N2/Ar and O2/Ar, respectively. For a given SED, the NO2 conversion rate had the order N2/Ar 〉 Ar 〉 02/Ar. The highest energy yield of 3.31 g/kWh was obtained in N2/Ar plasma and decreased with increasing SED; the same trends were also found in the other two gas compositions. The conversion rate decreased with increasing initial NO2 concentration. Furthermore, the presence of N2 or O2 led to different reaction pathways for NO2 conversion due to the formation of different dominating reactive radicals.     

Catalytic oxidation of benzene over nanostructured porous Co3O4-CeO2 composite catalysts

The three-dimensional structured Co₃O₄-CeO₂ oxides with Co/Ce molar ratio 16:1 gave the highest catalytic activity, which provided more surface hydroxyl groups and more surface oxygenated species.     

Toluene decomposition performance and NOx by-product formation during a DBD-catalyst process

Characteristics of toluene decomposition and formation of nitrogen oxide (NO_x) by-products were investigated in a dielectric barrier discharge (DBD) reactor with/without catalyst at room temperature and atmospheric pressure. Four kinds of metal oxides, i.e., manganese oxide (MnOx), iron oxide (FeOx), cobalt oxide (CoOx) and copper oxide (CuO), supported on Al₂O₃/nickel foam, were used as catalysts. It was found that introducing catalysts could improve toluene removal efficiency, promote decomposition of by-product ozone and enhance CO₂ selectivity. In addition,NO_xwas suppressedwith the decrease of specific energy density (SED) and the increase of humidity, gas flow rate and toluene concentration, or catalyst introduction. Among the four kinds of catalysts, the CuO catalyst showed the best performance in NO_x suppression. The MnOx catalyst exhibited the lowest concentration of O₃ and highest CO₂ selectivity but the highest concentration of NOx. A possible pathway for NOx production in DBD was discussed. The contributions of oxygen active species and hydroxyl radicals are dominant in NOx suppression.     

O3/H2O2氧化苯乙烯气体性能及机制

O3/H2O2体系能产生大量自由基,臭氧与自由基的耦合氧化作用能提高苯乙烯的氧化去除效率.采用O3/H2O2氧化高浓度苯乙烯有机废气,研究了臭氧投加量、停留时间、H2O2体积分数、循环液喷淋密度和O3/C8H8摩尔比对苯乙烯去除率的影响.结果表明,O3/H2O2气液两相氧化能高效净化苯乙烯有机废气,苯乙烯去除率可达85.7%.适宜运行条件:停留时间为20.6 s,H2O2体积分数为10%,喷淋密度为1.72 m3·(m2·h)-1,O3/C8H8摩尔比为0.46.采用GC-MS分析O3/H2O2气液两相高级氧化苯乙烯出口气样,研究结果表明苯甲醛(C6H5CHO)和苯甲酸(C6H5COOH)为O3/H2O2氧化苯乙烯的中间产物,并推测出苯乙烯的降解机制.     

Toluene decomposition performance and NOx by-product formation during a DBD-catalyst process

Characteristics of toluene decomposition and formation of nitrogen oxide (NOx) by-products were investigated in a dielectric barrier discharge (DBD) reactor with/without catalyst at room temperature and atmospheric pressure. Four kinds of metal oxides, i.e., manganese oxide (MnOx), iron oxide (FeOx), cobalt oxide (CoOx) and copper oxide (CuO), supported on Al₂O₃/nickel foam, were used as catalysts. It was found that introducing catalysts could improve toluene removal efficiency, promote decomposition of by-product ozone and enhance CO₂ selectivity. In addition, NOx was suppressed with the decrease of specific energy density (SED) and the increase of humidity, gas flow rate and toluene concentration, or catalyst introduction. Among the four kinds of catalysts, the CuO catalyst showed the best performance in NOx suppression. The MnOx catalyst exhibited the lowest concentration of O₃ and highest CO₂ selectivity but the highest concentration of NOx. A possible pathway for NOx production in DBD was discussed. The contributions of oxygen active species and hydroxyl radicals are dominant in NOx suppression.     

Integrated removal of NO and mercury from coal combustion flue gas using manganese oxides supported on TiO2

A catalyst composed of manganese oxides supported on titania(MnO_x/TiO_2) synthesized by a sol–gel method was selected to remove nitric oxide and mercury jointly at a relatively low temperature in simulated flue gas from coal-fired power plants. The physico-chemical characteristics of catalysts were investigated by X-ray fluorescence(XRF), X-ray diffraction(XRD), and X-ray photoelectron spectroscopy(XPS) analyses, etc. The effects of Mn loading,reaction temperature and individual flue gas components on denitration and Hg~0 removal were examined. The results indicated that the optimal Mn/Ti molar ratio was 0.8 and the best working temperature was 240°C for NO conversion. O_2 and a proper ratio of [NH_3]/[NO]are essential for the denitration reaction. Both NO conversion and Hg~0 removal efficiency could reach more than 80% when NO and Hg~0 were removed simultaneously using Mn0.8 Tiat 240°C.Hg~0 removal efficiency slightly declined as the Mn content increased in the catalysts. The reaction temperature had no significant effect on Hg~0 removal efficiency. O_2 and HCl had a promotional effect on Hg~0 removal. SO2 and NH_3were observed to weaken Hg~0 removal because of competitive adsorption. NO first facilitated Hg~0 removal and then had an inhibiting effect as NO concentration increased without O_2, and it exhibited weak inhibition of Hg~0 removal efficiency in the presence of O_2. The oxidation of Hg~0 on Mn O x/TiO_2 follows the Mars–Maessen and Langmuir–Hinshelwood mechanisms.     

Ti/RuO2-IrO2电极电化学方法降解溶液中TBBPA及其降解机理探究

四溴双酚A(TBBPA)是世界上产量和用量最大的溴代阻燃剂之一,在河流、底泥及污水中持久存在,严重威胁环境和人体健康.探讨了阳极为Ti/RuO_2-IrO_2电极的电化学法对溶液中TBBPA的降解效率,并考察了电流密度(5~20 m A·cm~(-2))、初始pH值(3~11)、极板间距(1~3 cm)及电解质浓度(1~40 mmol·L~(-1))对降解速率的影响.研究结果表明,TBBPA的降解遵循一级动力学方程,在溶液初始浓度为5 mg·L~(-1)、电流密度为10 mA·cm~(-2)、电解质浓度为5 mmol·L~(-1)及极板间距为1 cm的条件下,60 min后TBBPA的降解率可达97.2%,且降解速率常数和半衰期分别为0.060 min~(-1)和11.6 min,能量消耗为105.3 k Wh·m~(-3).同时运用HPLC-MS/MS检测出中间产物双酚A(BPA)和2-溴苯酚,并推断其降解途径主要为在羟基自由基(·OH)作用下连续的脱溴过程中,苯环与异丙基之间的C—C键断裂生成BPA和2-溴苯酚.电化学法是一种高效的、有潜力的降解难降解有机污染物的方法,本文将为今后实际废污水中TBBPA的去除提供基础数据和技术参数.     

Choice of precipitant and calcination temperature of precursor for synthesis of NiCo2O4 for control of CO–CH4 emissions from CNG vehicles

Compressed natural gas(CNG)is most appropriate an alternative of conventional fuel for automobiles.However,emissions of carbon-monoxide and methane from such vehicles adversely affect human health and environment.Consequently,to abate emissions from CNG vehicles,development of highly efficient and inexpensive catalysts is necessary.Thus,the present work attempts to scan the effects of precipitants(Na_2CO_3,KOH and urea)for nickel cobaltite(Ni Co_2O_4)catalysts prepared by co-precipitation from nitrate solutions and calcined in a lean CO-air mixture at 400°C.The catalysts were used for oxidation of a mixture of CO and CH_4(1:1).The catalysts were characterized by X-ray diffractometer,Brunauer–Emmett–Teller surface-area,X-ray photoelectron spectroscopy;temperature programmedreductionandScanningelectronmicroscopycoupledwith Energy-Dispersive X-Ray Spectroscopy.The Na_2CO_3was adjudged as the best precipitant for production of catalyst,which completely oxidized CO-CH_4mixture at the lowest temperature(T_(100)=350°C).Whereas,for catalyst prepared using urea,T_(100)=362°C.On the other hand the conversion of CO-CH_4mixture over the catalyst synthesized by KOH limited to 97%even beyond 400°C.Further,the effect of higher calcination temperatures of 500 and600°C was examined for the best catalyst.The total oxidation of the mixture was attained at higher temperatures of 375 and 410°C over catalysts calcined at 500 and 600°C respectively.Thus,the best precipitant established was Na_2CO_3and the optimum calcination temperature of 400°C was found to synthesize the Ni Co_2O_4catalyst for the best performance in CO-CH_4oxidation.     

MnO2强化厌氧氨氧化工艺启动及其微生物机理研究

通过对照试验考察了添加MnO₂对厌氧氨氧化污泥驯化和培养的影响,并采用16S rRNA基因高通量测序技术和定量PCR分析其机理.结果表明,添加MnO₂粉末能够显著提高容积氮负荷及运行性能,其脱氮速率高达848.04 mg·L^-1·d^-1,几乎是对照组反应器的2倍.16S rRNA基因高通量测序技术和定量PCR结果表明,添加MnO₂粉末促进了典型厌氧氨氧化菌Candidate Brocadia的富集,厌氧氨氧化菌16S rRNA基因和功能基因hzsB的丰度显著提高.     

O3-BAC深度处理石化废水厂尾水的特性及菌群结构分析

采用连续流O_3-BAC对华北某石化废水处理厂尾水进行了中试处理实验,研究了O_3氧化对COD及UV254处理效果的影响,同时对处理过程中有机物的变化特性及稳定运行30 d时BAC填料中的微生态环境进行了分析.结果表明,在O_3接触时间为40 min,O_3投加量为20 mg·L-1,BAC单元空床停留时间为1.5 h条件下,O_3-BAC工艺出水COD为24 mg·L-1,平均去除率为40.4%,相对于单独BAC工艺去除率提高10.0%,UV254的平均去除率为55.1%,且COD与UV254之间呈一定的相关性,相关系数R2为0.89;O_3氧化后相对分子质量1×103的比例由尾水中的69.0%提高到了87.0%,O_3-BAC工艺中NPOC的去除率为45.8%,较单独BAC工艺提高23.0%,且BAC单元去除的NPOC主要由相对分子质量1×103的组分所贡献;经GC-MS图谱及有机物统计分析,经O_3氧化后烷烃类、不饱和酯类及酚类等有机物得到明显的去除;O_3氧化后BAC单元的微生态环境得到明显改善,其中微生物种类(丰度在1.0%以上)由6种增加到了11种.O_3-BAC工艺可以有效应用于石化尾水的深度处理中.     

Synergistic effects of non-thermal plasma-assisted catalyst and ultrasound on toluene removal

A wire-mesh catalyst coated by La_0.8Sr_0.2MnO₃ was combined with a dielectric barrier discharge (DBD) reactor for toluene removal at atmospheric pressure. It was found that toluene removal efficiency and carbon dioxide selectivity were enhanced in the catalytic packed-bed reactor. In addition, ozone and nitrogen monoxide from the gas effluent byproducts decreased. This is the first time that ultrasound combined with plasma has been used for toluene removal. A synergistic effect on toluene removal was observed in the plasma-assisted ultrasound system. At the same time, the system increased toluene conversion and reduced ozone emission.     

Highly catalytic activity of Mn/SBA-15 catalysts for toluene combustion improved by adjusting the morphology of supports

Rod-like, hexagonal and fiber-like SBA-15 mesoporous silicas were synthesized to support MnO_x for toluene oxidation. This study showed that the morphology of the supports greatly influenced the catalytic activity in toluene oxidation. MnO_x supported on rod-like SBA-15(R-SBA-15) displayed the best catalytic activity and the conversion at 230°C reached more than 90%, which was higher than the other two catalysts. MnO_x species consisted of coexisting MnO_2 and Mn_2O_3 on the three kinds of SBA-15 samples. Large amounts of Mn_2O_3 species were formed on the surface and high oxygen mobility was obtained on MnO_x supported on R-SBA-15, according to the H_2 temperature programmed reduction(H_2-TPR)and X-ray photoelectron spectroscopy(XPS) results. The Mn/R-SBA-15 catalyst with greater amounts of Mn_2O_3 species possessed a large amount of surface lattice oxygen, which accelerated the catalytic reaction rate. Therefore, the surface lattice oxygen and high oxygen mobility were critical factors on the catalytic activity of the Mn/R-SBA-15 catalyst.     

等离子体协同金属氧化物催化氧化苯的研究

以Al2O3和Ag/Al2O3为催化剂,采用介质阻挡放电(DBD)反应器降解空气中低浓度的苯(C6H6),重点考察了苯的转化率、能量效率随能量密度的变化关系.研究发现:苯的氧化产物为一氧化碳(CO)和二氧化碳(CO2),当能量密度为94 J/L时,在催化剂Ag/Al2O3、Al2O3存在以及不使用催化剂的条件下,苯的能量效率分别达到了0.054 mol/kW·h、0.038 mol/kw·h与0.024 mol/kW·h.同时,探讨了国外应用低温等离子体技术处理气体污染物的相关研究成果,并与本研究做了比较.