深圳冬季大气气态硝酸和硝酸盐气粒分配特征

利用双通道在线气体和气溶胶分析仪（MARGA）在深圳冬季同时观测了PM_2.5和PM₁₀中水溶性无机离子及气态前体物浓度变化,以探究气态硝酸（HNO₃）和颗粒态硝酸盐（pNO₃^-）的气粒分配特征.结果表明,气态硝酸和颗粒态硝酸盐总和TNO₃（TNO₃=HNO₃+pNO₃^-）中,气态HNO₃、细颗粒NO₃^-和粗颗粒NO₃^-三个部分的占比分别为9.6%、56.8%和33.6%.TNO₃浓度日变化呈现双峰特征,上午峰值来自于细颗粒态NO₃^-增加,由交通早高峰排放NO_x转化生成所致;白天光化学反应使TNO₃的3个部分浓度均增加,TNO₃在下午17：00达到全天峰值.相关分析表明,低温有利于NO₃^-以NH₄NO₃存在于细颗粒态;TNO₃浓度较高时,细颗粒态NO₃^-占比亦升高.     

青岛大气中HNO3、HNO2和NH3的浓度及其影响因素

硝酸(HNO₃)、亚硝酸(HNO₂)和氨气(NH₃)是大气中重要的含氮化合物,不仅影响大气的光化学氧化能力和酸碱性,还在大气氮沉降中有重要贡献.利用2012年5月4—13日在青岛采集的denuder大气样品,分析了其中HNO₃、HNO₂和NH₃的浓度.青岛大气中HNO₃、HNO₂和NH₃浓度分别为0.88~6.15 μg·m^-3、0.07~2.02 μg·m^-3和0.47~7.87 μg·m^-3,平均分别为2.06 μg·m^-3、0.92 μg·m^-3和3.03 μg·m^-3.大气中3种气体浓度的昼夜变化均无显著性差异.平行采集的样品分析结果显示:denuder涂层的差异对HNO₃和NH₃的观测结果影响较小,但对HNO₂的影响较大,且高温天气易于造成HNO₂更大的观测误差.青岛大气中HNO₃浓度与温度呈正相关、与湿度呈负相关关系,高温低湿天气时样品中HNO₃的浓度一般较高,而高湿或降雨天气时的浓度则较低.NH₃浓度与风向呈显著相关关系,主要受局地一次排放源的影响, NH₄NO₃和NH₄NO₂分解对青岛大气中NH₃的贡献小于23%.青岛大气样品中NH₃的浓度在阵雨时以受土壤释放的影响为主,浓度较高;而连续降雨时则以受湿清除作用的影响为主,浓度较低.     

Effects of relative humidity on the characterization of a photochemical smog chamber

A linear relationship between k_NO2→HONO and relative humidity in smog chamber is found in this work.     

Observations of nitrous acid and its relative humidity dependence in Shanghai

Nitrous acid, HNO2, is an important precursor of OH radicals in the troposphere. Measurements of HNO2 and NO2, using differential optical absorption spectroscopy （DOAS）, were performed in Shanghai, China for a period from October 22, 2004 to January 4, 2005. The mean （and median） hourly concentrations of HNO2 and NO2 during this period were 1.1 （0.7） ppb and 24 （21.4） ppb respectively. A correlation between HNO2/NO2 and PM10 mass concentrations was obtained. This correlation suggests that significant heterogeneous chemical production of HNO2 may occur through NO2 reactions on aerosol surfaces. This hypothesis was further supported by detailed analysis of selected pollution episodes in this study. At the same time, the water dependence of HNO2 formation was studied by analysis of relative humidity （RH）. It showed that the maximum HNO2/NO2 ratio was increased along with RH below 70% and inhibited at RH〉70%.     

硝酸改性活性炭对赤铁矿生物可利用性的强化效果与影响因素分析

赤铁矿生物可利用性弱、污染物去除效率低,但因其具有价格低廉、存在广泛的特点而常被用于环境污染治理与修复.本研究通过向赤铁矿生物还原体系中添加硝酸改性后的活性炭,以强化矿石中Fe(Ⅲ)的生物可利用性.同时,以Fe(Ⅲ)还原率与有机物降解率为响应值,通过响应曲面法探究了赤铁矿浓度、有机物浓度与硝酸改性剂浓度对赤铁矿生物可利用性的影响机制.结果表明,硝酸改性活性炭可以提高赤铁矿的生物可利用性,促进有机物的降解,赤铁矿浓度对反应的影响最为显著.生物反应过程的最佳条件为:赤铁矿初始浓度8.35 mmol·L~(-1)、有机物初始浓度13.41 mmol·L~(-1)、硝酸改性剂浓度5.07%.硝酸改性活性炭强化赤铁矿生物体系虽能降解高浓度有机物,但有机物去除效率仅为20%～50%,证明该体系适用于低有机物浓度的水环境.本研究对促进水、土壤环境中有机物的降解具有重要科学意义.     

基于SPAMS探究南京市秋季大气中含草酸重金属颗粒的混合状态

草酸是大气环境中重要的二羧酸,可以与多种非吸湿性的多价金属形成草酸-金属络合物,并对生物健康和大气环境产生重要的影响. 众所周知,光化学反应可以促进草酸的形成. 然而,考虑到草酸与重金属（Heavy Metals, HMs）潜在的络合反应,草酸与HMs颗粒的混合态目前尚不完全清楚. 本研究利用单颗粒气溶胶质谱仪对南京市大气中含有草酸的HMs （Fe、Cu、Pb、Zn） 的粒径和化学组成进行了分析. 结果表明,与采样期间获得的整体颗粒相比（17.16%）,HMs中草酸的数分数（Number fractions, Nfs）更高（29.88%）. 草酸在各类HMs中的Nfs值分别为20.84% （Fe）、45.59% （Cu）、37.16% （Pb）、36.51% （Zn）. 此外,草酸与Cu （ r = 0.53 ）、Pb （ r = 0.55 ）和Zn （ r = 0.79 ）之间存在良好的相关性,这可能归因于它们在环境中可以形成草酸-重金属配合物. 值得注意的是,Fe与草酸在白天（r = 0.29）和夜间（r = 0.71）的相关性差异明显,这可能是因为Fe-草酸配合物在白天发生光解和Fe驱动的Fenton反应有关. 此外,气溶胶酸度（Relative acidity, Ra）和相对湿度（Relative humidity, RH）对形成草酸-重金属配合物也有影响. Ra的增强可能抑制草酸-重金属配合物的形成. 当RH > 70%时,RH增大可能促进草酸-重金属配合物的形成. 本研究为评估草酸在HMs中的增强提供了一些参考依据,同时提高了我们对大气环境中存在的草酸汇的认识.     

基于TEM-EDS对四川盆地大气单颗粒气溶胶的研究

为了解四川盆地大气中单颗粒气溶胶理化特征,分别在该区域典型城市（成都市）和背景地区（峨眉山）进行了大气单颗粒样品采集.基于带能谱的透射电子显微镜（TEM-EDS）对两地累计3923个单颗粒的化学组成、形貌特征及混合状态等进行了全面观测和分析,并对两地颗粒物差异性进行了对比分析.结果发现：两地气溶胶颗粒主要包括有机物、富硫、矿物、烟尘和飞灰/金属颗粒,除了以单独的外混形式存在外,大多数颗粒以两种及两种以上颗粒类型混合（即内混）形式存在.通过对成都市不同污染状况下单颗粒特征对比发现,"污染天"的内混颗粒占比高于"清洁天",分别为74.2%和68.6%;相比"清洁天","污染天"颗粒物粒径分布范围更广且峰值区间更大,表明污染过程中颗粒物的大气混合趋于更强.对比成都市与峨眉山分析结果得知,成都市以内混的有机物-硫颗粒为主导（占比为50.2%）,而峨眉山以外混的有机物颗粒为主导（占比为50.5%）;成都市含硫类颗粒物（如有机物-硫颗粒）贡献高于峨眉山,而峨眉山两种含碳类颗粒（如烟尘和有机物-烟尘颗粒）占比高于成都市;此外,成都市与峨眉山两地大气颗粒物粒径分布范围及峰值区间均存在一定差异,进一步体现了两地颗粒物来源和老化混合的差异.在峨眉山,与非降雨天相比,一些易溶于水的颗粒物（如含硫类颗粒）在降雨天占比明显降低,而源自当地燃烧过程、粒径较小且疏水性强的颗粒物（如烟尘和有机物-烟尘颗粒）占比相应升高.     

Characterization of submicron particles during autumn in Beijing, China

In this study, we performed a highly time-resolved chemical characterization of nonrefractory submicron particles(NR-PM_1) in Beijing by using an Aerodyne high-resolution time-of-flight aerosol mass spectrometer(HR-ToF-AMS). The results showed the average NR-PM_1 mass concentration to be 56.4 ± 58.0 μg/m~3, with a peak at 307.4 μg/m~3. Due to the high frequency of biomass burning in autumn, submicron particles significantly increased in organic content, which accounted for 51% of NR-PM_1 on average. Secondary inorganic aerosols(sulfate + nitrate + ammonium) accounted for 46% of NR-PM_1, of which sulfate,nitrate, and ammonium contributed 15%, 20%, and 11%, respectively. To determine the intrinsic relationships between the organic and inorganic species, we used the positive matrix factorization(PMF) model to merge the high-resolution mass spectra of the organic species and NO+and NO_2~+ions. The PMF analysis separated the mixed organic and nitrate(NO+and NO_2~+) spectra into four organic factors, including hydrocarbon-like organic aerosol(HOA), oxygenated organic aerosol(OOA), cooking organic aerosol(COA), and biomass burning organic aerosol(BBOA), as well as one nitrate inorganic aerosol(NIA) factor. COA(33%) and OOA(30%) contributed the most to the total organic aerosol(OA) mass, followed by BBOA(20%) and HOA(17%). We successfully quantified the mass concentrations of the organic and inorganic nitrates by the NO+and NO2+ions signal in the organic and NIA factors. The organic nitrate mass varied from 0.01-6.8 μg/m~3, with an average of 1.0 ±1.1 μg/m~3, and organic nitrate components accounted for 10% of the total nitrate mass in this observation.     

大气中丙烷光氧化臭氧生成活性的烟雾箱模拟

利用自制光化学烟雾箱模拟了丙烷和NOx大气光化学反应,研究了相对湿度以及丙烷与NOx初始浓度比值对臭氧生成的影响.实验表明,臭氧最大值及丙烷的臭氧生成活性最大值(IRmax)都随相对湿度的增大而减小.低相对湿度时,臭氧最大值大约出现在反应的22 h,IRmax变化范围为0.023 1～0.039 1;而高相对湿度时,臭氧最大值大约出现在反应的16 h,IRmax变化范围为0.017 2～0.032 0.在反应的20 h内,前12 h内相对湿度对丙酮的生成量影响不大,12 h后低相对湿度时丙酮生成量更大.在实验的4～20 h内,相对湿度为17%时,丙酮浓度为153×10-9～364×10-9;而相对湿度为62%时,丙酮浓度为167×10-9～302×10-9.臭氧最大值随着丙烷与NOx初始浓度比值增加而减少,在低相对湿度时线性负相关性更好.另外,还利用了MCM丙烷子机制对反应进行了数值模拟,并与实验结果进行比较,发现两者还存在较大的偏差.     

Geological emission of methane from the Yakela condensed oil/gas field in Talimu Basin, Xinjiang, China

A static flux chamber method was applied to study natural emissions of methane into the atmosphere in the Yakela condensed oil/gas field in Talimu Basin, Xinjiang, China. Using an online method, which couples a gas chromatography/high-temperature conversion/isotope ratio mass spectrometry (GC/C/MS) together, the 13C/12C ratios of methane in the flux chambers were measured. The results demonstrated that methane gases were liable to migrate from deep oil/gas reservoir to the surface through microseepage and p...     

青岛大气中HNO3、HNO2、NH3及PM2.5中氮组分的浓度特征和气-粒平衡关系

研究PM2.5中NO-3、NO-2、NH+4及其气态前体物HNO3、HNO2、NH3的浓度特征和气-粒平衡关系,对深入认识PM2.5的来源及控制因素具有重要意义.因此,本文利用2012年6—7月在青岛采集的denuder和PM2.5大气样品,分析了其中气态和颗粒态氮组分的浓度.结果发现,青岛大气中HNO3、HNO2和NH3浓度分别为(0.80±0.79)μg·m-3、(0.49±0.59)μg·m-3和(4.71±4.03)μg·m-3,PM2.5中NO-3、NO-2和NH+4的浓度分别为(7.50±9.00)μg·m-3、(0.07±0.02)μg·m-3和(8.23±5.57)μg·m-3.HNO3气体浓度的昼夜变化具有统计意义上的显著差异,白天平均为1.16μg·m-3,高于夜晚的0.44μg·m-3,但其他氮组分无显著昼夜差异.观测期间,青岛大气为富氨环境,PM2.5中NH+4主要以(NH4)2SO4的形式存在,NO-3生成主要受HNO3的限制.利用ISORROPIA II热力学平衡模型探讨了青岛PM2.5中氮组分的控制因子,通过敏感性实验发现,颗粒态NO-3和NH+4分别对总HNO3(TN)和总H2SO4(TS)的变化响应敏感,而对总NH3(TA)的变化响应不敏感,这暗示了减少大气中TN和TS而不是TA对降低青岛PM2.5浓度更有效.     

Characterization of submicron aerosol particles in winter at Albany, New York

A thorough understanding of chemical composition, particle pH, and pollutant emissions is essential to address the climate and human health effects of atmospheric particles. In this study, we used a High-Resolution Time-of-Flight Aerosol Mass Spectrometer(HR-ToF-AMS)and Scanning Mobility Particle Sizer(SMPS) to characterize the composition of submicron particles. Moreover, we applied the ISORROPIA-II model to analyze the particle acidity effect on the compositional characterization of submicron ...     

Characterization of organic matter in total suspended particles bythermodesorption and pyrolysis-gas chromatography-mass spectrometry

The organic matter in tropospheric aerosol plays an important role in atmospheric physical and chemical processes. The bulk oforganic matter, representing a significant proportion of the total suspended particulate (TSP) mass, is bound to polymeric materialwhose structure and properties are largely unknown. Here we used thermodesorption gas chromatography/mass spectrometry (Td-GC/MS) to study organic compounds of low molecular mass and pyrolysis gas chromatography/mass spectrometry (Py-GC/MS) tocharacterize the chemical structure of macromolecules in TSP samples collected in di erent seasons from di erent sites in Guangzhou.n-Alkanes, fatty acids and nitriles were the predominant compounds in the thermodesorption products, whereas aromatics, fatty acids,nitriles and n-alkanes/alkenes were the major compounds in the pyrolysates. The results indicated that aromatics were main units inmacromolecules. The fatty acids and nitriles formed from carboxylic ammonium salts were detected in both thermodesorption productsand pyrolysates at a certain concentration, indicating the importance of these compounds in TSP formation. The TSP source mainlydetermined the occurrence of compounds in samples from urban, suburban and forest sites, whereas the TSP source and formationprocess maybe controlled the seasonal variation in compounds detected. High levels of nitriles in summer samples from suburban andforest sites coincide with the release of ammonium from the land and of fatty acids from vegetation at these sites.     

Removal of nitric oxide from simulated flue gas via denitrification in a hollow-fiber membrane bioreactor

A hollow-fiber membrane bioreactor(HMBR) was studied for its ability to treat nitric oxide(NO) from simulated flue gas. The HMBR was operated for 9 months and showed a maximum elimination capacity of 702 mg NO/(m2·day) with a removal efciency of 86%(gas residence time of 30 sec, inlet NO concentration of 2680 mg/m3, pH 8). Varying operation parameters were tested to determine the stability and response of the HMBR. Both the inlet NO concentration and gas residence time influenced the removal of NO in the HMBR. NO elimination capacity increased with an increase in inlet NO concentration or a shortening of gas residence time. Higher removal efciency of NO was obtained at a longer gas residence time or a lower inlet NO concentration. Microbial communities of the HMBR were sensitive to the variation in pH value and alkalescence corresponding to an optimum pH value of 8. In addition, NO elimination capacity and removal efciency were inversely proportional to the inlet oxygen concentration. Sulfur dioxide had no great influence on elimination capacity and removal efciency of NO. Product analysis was performed to study N2O and N2 production and confirmed that the majority of the microorganisms were denitrifying bacteria in the HMBR. Compared to other bioreactors treating NO, this study showed that the denitrifying HMBR was a good option for the removal of NO.     

Heterogeneous uptake of NO2 on soils under variable temperature and relative humidity conditions

Heterogeneous reactions of nitrogen dioxide (NO₂) on soils collected from Dalian (S1) and Changsha (S2) were investigated over the relative humidity (RH) range of 5%-80% and temperature range of 278-328 K using a horizontal coated-wall flow tube. The initial uptake coefficients of NO₂ on S2 exhibited a decreasing trend from (10 ± 1.3) × 10^-8 to (3.1 ± 0.5) × 10^-8 with the relative humidity increasing from 5% to 80%. In the temperature effect studies, the initial uptake coefficients of S1 and S2 decreased from (10 ± 1.2) × 10^-8 to (3.8 ± 0.5) × 10^-8 and from (16 ± 2.2) × 10^-8 to (3.8 ± 0.4) × 10^-8 when temperature increased from 278 to 288 K for S1 and from 278 to 308 K for S2, respectively. As the temperature continued to increase, the initial uptake coefficients of S1 and S2 returned to (7.9 ± 1.1) × 10^-8 and (20 ± 3.1) × 10^-8 at 313 and 328 K, respectively. This study shows that relative humidity could influence the uptake kinetics of NO₂ on soil and temperature would impact the heterogeneous chemistry of NO₂.     

Characterization of coal burning-derived individual particles emitted from an experimental domestic stove

Coal combustion in the domestic stoves, which is common in most parts of the Chinese countryside, can release harmful substances into the air and cause health issues. In this study, particles emitted from laboratory stove combustion of the raw powder coals were analyzed for morphologies and chemical compositions by using transmission electron microscopy(TEM) coupled with energy-dispersive X-ray spectrometry(EDX). The coal burning-derived individual particles were classified into two groups: carbonaceous particles(including soot aggregates and organic particles) and non-carbonaceous particles(including sulfate, mineral and metal particles). The non-carbonaceous particles, which constituted a majority of the coal burning-derived emissions, were subdivided into Si-rich, S-rich, K-rich,Ca-rich, and Fe-rich particles according to the elemental compositions. The Si-rich, S-rich and K-rich particles are commonly observed in the coal burning emission. The proportions for particles of different types exhibit obvious coal-issue dependence. Burning of coal with high ash yield could emit more non-carbonaceous particles, and burning of coal with high sulfur content can emit more S-rich particles. By comparing the S-rich particles from this coal burning experiment with those in the atmosphere, we draw a conclusion that some S-rich particles in the atmosphere in China could be mainly sourced from coal combustion.     

环境汞污染暴露下大鼠肝中一氧化氮及一氧化氮合酶的变化

为了探讨汞污染暴露对公众健康的潜在危害,采用清镇化工地区汞污染粮食对大鼠进行暴露试验,研究不同暴露时间节点处大鼠肝中一氧化氮(NO)和一氧化氮合酶(NOS)的变化,并以市售上海粮食作对照.结果表明,利用汞污染的粮食对大鼠暴露7 d后,大鼠肝中NO含量及NOS活力出现显著升高(p＜0.05).7～30 d暴露与长时间暴露90 d情况相比,肝中NO含量相对稳定.对大鼠肝中汞、硒元素的分析表明,汞、硒元素含量间有相关关系(r=0.9426),表明硒元素对汞的毒性作用有一定影响.长期暴露90 d后,肝中NO含量出现急剧上升,与对照组相比上升200%.同时,体内脂质过氧化产物丙二醛(MDA)含量也出现显著升高(P＜0.05),表明长期暴露引起了机体的氧化损伤.     

凹凸棒石/聚丙烯酸钠合成条件对其吸水吸湿性能的影响

目的研究中和度、交联剂用量、引发剂用量以及聚合单体丙烯酸钠含量等条件对其吸水吸湿性能的影响。初步探讨了同种材料的吸水和吸湿性能的关系。方法以N,N’-2亚甲基双丙烯酰胺（MBAA）为交联剂,过硫酸钾为引发剂,采用水溶液聚合法合成了聚丙烯酸钠／凹凸棒石复合材料。结果由正交实验分别确定了吸水和吸湿用材料合成的最佳反应条件,其吸湿率最高达4．0g／g、吸水倍率达到910倍。结论凹凸棒石可以改良高吸水树脂的吸湿性能。     

改进式开顶气室模拟CO2浓度控制系统性能分析

为提高开顶气室（open-top chamber,OTC）模拟气候变化研究植物生理响应的控制效果,基于前期OTC控制系统基础,对气室结构、控制系统及监测系统改进升级。对改进后的OTC控制系统采集了试验期间5月—10月OTC气室内CO₂浓度、温度及空气相对湿度实时数据分析模拟效果,结果表明：改进后的OTC控制系统能够控制CO₂浓度达到试验预设浓度梯度,在试验期OTC气室内监测的CO₂浓度平均值对照组（CK）为369.33 μmol?mol^?1,处理1组（TR1）为558.35 μmol?mol^?1,处理2组（TR2）为772.71 μmol?mol^?1;CO₂浓度波动范围TR1组为551.82—572.40 μmol?mol^?1,变幅为20.58 μmol?mol^?1;TR2组为756.71—779.79 μmol?mol^?1,变幅为23.08 μmol?mol^?1,满足试验预设模拟要求;气室内不同处理间温度、空气相对湿度差异均不显著（p＞0.05）。改进后的OTC控制系统模拟效果好,可用于研究植物响应气候变化的模拟试验。     

天津冬季相对湿度对气溶胶浓度谱分布和大气能见度的影响

于2013年1月连续在线观测天津城区气溶胶数浓度谱分布和大气能见度,并结合相关气象资料,探讨相对湿度(RH)对气溶胶浓度谱分布和大气能见度的影响.结果表明,观测期间发生了4次连续雾霾天气过程, 4次雾霾天气过程对应着气溶胶粒子数浓度的连续高值,低能见度天气系高浓度气溶胶粒子和高相对湿度协同所致;随着RH增大,PN1和PN2.5-10呈增长趋势, RH>90%后,PN1和PN2.5-10有所降低,PN1-2.5则持续增长,高RH对气粒转化和气溶胶粒子的碰并聚合作用明显;气溶胶吸湿增长因子计算表明,高RH下水汽对能见度影响很大,尤其是大雾天气下其影响甚至可能超过气溶胶粒子浓度对其的影响.