本溪大气黑碳气溶胶浓度的观测研究

对2008年3月至2009年2月本溪黑碳气溶胶浓度观测资料进行了研究分析.结果表明,本溪黑碳平均浓度值为6.877 μg/m3,日平均浓度变化范围为0.592～20.577 μg/m3,每小时平均浓度最大值达64.518 μg/m3;黑碳浓度具有明最的季节变化,夏季的平均浓度最低,最高值出现在冬季的1月份,这与冬季取暖...     

天津夏季黑碳气溶胶及其吸收特性的观测研究

利用天津城市边界层观测站2010年8月12日~9月18日期间的黑碳、污染物和气象梯度观测数据,分析天津市夏季黑碳气溶胶浓度的变化特征及其影响因子.结果表明, 观测期间,黑碳气溶胶浓度均值为6.309mg/m3,占PM10质量浓度的4.17%,其吸收消光占气溶胶总体消光的10.23%.受人类活动和边界层结构影响,黑碳气溶胶浓度日变化呈双峰型,7:00达到峰值,14:00~16:00最小,20:00达到次高峰.黑碳气溶胶浓度随风速增加呈下降趋势,当风速超过4m/s时,浓度一般低于5mg/m3,西风及西北风对天津城区黑碳气溶胶输送作用明显,其出现大于10mg/m3的高黑碳气溶胶事件概率为18.07%;逆温和大气稳定易造成黑碳气溶胶在近地层的堆积,形成高污染事件.     

中国沙尘气溶胶的间接辐射强迫与气候效应

利用在线耦合的区域气候化学模式系统(RegCCMS),对2003~2007年的3,4,5月中国沙尘气溶胶的空间分布,间接辐射强迫和间接气候效应进行模拟.结果表明:沙尘分布主要集中在中国西北的新疆、内蒙、甘肃等地区.5月份最高的中心值浓度达到3500μg/m3,3个月地面浓度依次增大.3,4,5月由沙尘气溶胶造成的第一间接辐射强迫平均值分别为-1.26,-2.0,-2.69W/m2.局部地区达到-7W/m2.考虑到沙尘气溶胶的第一间接气候效应后,使近地面气温下降,降水减少,3,4,5月地面气温变化的平均值为-0.05,-0.07,-0.08K. 3,4,5月降水变化平均值分别为-0.0037,-0.037,-0.1mm/d. 不同的月份和地区,温度和降水的变化存在明显的差异.     

稻田气溶胶NH3和气体NOx排放在线测定研究

气溶胶NH3和气体NOx是大气颗粒物和降水的主要成分,是形成气溶胶的关键物种.田间集约化氮肥施用是气溶胶NH3和气体NOx的一个重要来源,目前该领域的研究鲜有报道.2010年5月～2010年10月,在线监测了稻田施用尿素后气溶胶NH3和气体NOx的排放情况.监测系统的时间分辨率设置为1 h.在4次稻田施肥试验中,施肥后对气溶胶NH3排放和相应的气象因子连续采样20 d.在第4次施肥试验中,施肥后连续采样47 d,进而研究气体NOx的排放规律及其与气象因子的关系.结果表明,气溶胶NH3的排放因子分别为2.6%、5.5%、4.0%和1.6%,相应的排放通量分别为3.97、2.08、1.52和1.22 kg·hm-2.温度(空气温度和土壤温度)是影响稻田施肥气溶胶NH3排放的主要因子,而空气湿度和土壤水分对其排放的影响却不明确.通过分析监测数据可知,稻田施肥后NO2-N排放量与NO-N排放量的比值为9/4,气体NOx的排放因子和排放通量分别为0.14%和0.30 kg·hm-2.气象因子与气体NOx排放通量的关系也进行了初步探讨.     

Aerosol characterization in a city in central China plain and implications for emission control

Extensive studies on aerosol chemistry have been carried out in megacities in China, however, aerosol characterization in Central China Plain (CCP) is limited. Here we conducted real-time measurements of fine particle composition with a time-of-flight aerosol chemical speciation monitor in Kaifeng, Henan province in October 2019. Our results showed that nitrate and organics constituted the major fraction of non-refractory PM_2.5 for the entire study, on average accounting for 34% and 33%, respectively. However, aerosol composition was substantially different among four periods due to different meteorological conditions and chemical processing. For instance, nitrate presented the lowest contribution during the first period due to evaporative loss associated with high temperature (T), and then rapidly increased during polluted periods as a function of relative humidity (RH). Positive matrix factorization analysis showed the dominance of secondary organic aerosol (SOA) in OA, and also the changes in OA composition under different T and RH levels. In addition, this study is unique with two periods of local emission controls. Back trajectory and coefficient of divergence analysis showed that air pollution in CCP was overall homogeneously distributed. As a result, the effectiveness of local emission controls in this region was strongly affected by meteorological conditions and regional transport. We found that one of the periods with emission control even showed the highest concentrations for the entire study. Our results point towards the limited effect of local emission controls in mitigating air pollution in CCP, and highlight the importance of joint emission controls under unfavorable meteorological conditions.     

Sources and characteristics of fine particles over the Yellow Sea and Bohai Sea using online single particle aerosol mass spectrometer

Marine aerosols over the East China Seas are heavily polluted by continental sources. During the Chinese Comprehensive Ocean Experiment in November 2012, size and mass spectra of individual atmospheric particles in the size range from 0.2 to 2.0 μm were measured on board by a single particle aerosol mass spectrometer (SPAMS). The average hourly particle number (PN) was around 4560 ± 3240 in the South Yellow Sea (SYS), 2900 ± 3970 in the North Yellow Sea (NYS), and 1700 ± 2220 in the Bohai Sea (BS). PN in NYS and BS varied greatly over 3 orders of magnitude, while that in SYS varied slightly. The size distributions were fitted with two log-normal modes. Accumulation mode dominated in NYS and BS, especially during episodic periods. Coarse mode particles played an important role in SYS. Particles were classified using an adaptive resonance theory based neural network algorithm (ART-2a). Six particle types were identified with secondary-containing, aged sea-salt, soot-like, biomass burning, fresh sea-salt, and lead-containing particles accounting for 32%, 21%, 18%, 16%, 4%, and 3% of total PN, respectively. Aerosols in BS were relatively enriched in particles from anthropogenic sources compared to SYS, probably due to emissions from more developed upwind regions and indicating stronger influence of continental outflow on marine environment. Variation of source types depended mainly on origins of transported air masses. This study examined rapid changes in PN, size distribution and source types of fine particles in marine atmospheres. It also demonstrated the effectiveness of high-time-resolution source apportionment by ART-2a.     

利用MODISC6数据分析中国西北地区气溶胶光学厚度时空变化特征

通过与AERONET太阳光度计站点数据进行对比验证,确认了MODIS C6 AOD融合产品在西北地区的适用性.利用2006~2015年MODIS/AQUA C6 MYD08-M3产品分析中国西北地区气溶胶光学厚度的时空变化特征和形成原因.结果表明:(1)从空间分布特征来看,塔里木盆地和关中盆地是高值区,青海南部、甘肃西南部是低值区;准噶尔盆地是前后5年年均AOD对比增量区,柴达木盆地和河套地区是对比减量区.(2)从时间变化特征来看,近10年西北地区年均AOD变化范围为0.18~0.22,2011年起呈缓慢下降趋势,平均年降幅约为0.32%;南疆地区呈现较为明显的年际变化特征,与沙尘天气强弱、频次的年份分布直接相关;东部地区在2011~2015年,下降趋势显著,平均年降幅达到1.1%;北疆和青藏地区年均AOD整体保持平稳;西北地区不同区域AOD季节变化均呈现从春季至秋季逐步下降,冬季再次回升的相同关系.     

重庆市黑碳气溶胶特征及影响因素初探

为了解影响重庆市黑碳气溶胶(Black Carbon,BC)污染的主要气象因素及BC的主要来源,对2012年重庆市BC与主要气象因素及燃煤、机动车产生的SO2、NO x进行了相关性分析,并分析了24 h内BC浓度变化与车流量的关系.结果显示,2012年,重庆市BC年日均浓度为(5.9±2.7)μg·m-3,占PM2.5年日均浓度的7.2%,BC小时浓度较大值出现在6:00—10:00及20:00—23:00.气温和相对湿度对BC浓度的影响不大.影响BC浓度的主要气象因素为风速,风速为0.5~1.5 m·s-1时,BC浓度随着风速增大而减小;当风速超过2 m·s-1时,BC浓度随风速增大而增加.BC与SO2、NO x的相关系数分别为0.374和0.542(p0.01),表明重庆市BC与SO2、NO x来源相同,即燃煤和机动车尾气排放,且受机动车排放的影响更大.BC浓度24 h变化与车流量的关系表明,BC浓度日变化除了受到气象条件的影响外,还受机动车尤其是柴油重型车的影响,因此,需重点控制柴油机动车以控制重庆市区BC污染.     

氨对甲苯二次有机气溶胶形成和化学组分的影响研究

氨(NH_3)是大气中常见的主要碱性污染气体,能够影响二次有机气溶胶(SOA)的形成和化学组分.本文利用自制的烟雾腔系统开展了NH_3对甲苯SOA形成和化学组分的影响研究,先后采用扫描移动粒径谱仪(SMPS)、气溶胶激光飞行时间质谱仪(ALTOFMS)、紫外-可见分光光度计(UV-Vis)、衰减全反射傅里叶变换红外光谱仪(ATR-FTIR)和荧光光谱仪(MF)测量反应产生的SOA粒子的物理化学性质.结果显示,在光照60 min的时间范围内,有NH_3条件下形成的SOA质量浓度和中心粒径相比于无NH_3条件下分别增加了50%和25%,这说明NH_3能够显著促进甲苯SOA的形成.与无NH_3条件下相比,NH_3存在时甲苯SOA化学组分的紫外可见吸收光谱在270 nm处有明显的吸收峰;红外吸收光谱出现了CN、C—N、N—H键的吸收峰;激光解吸附质谱图中含有m/z=67(C_3H_3N_2~+)、m/z=41(C_2H_2N~+)和m/z=28(CH2N+)碎片峰.这些谱图信息综合表明是NH_3和甲苯SOA中的二醛组分反应形成了咪唑类新产物.这为研究人为源SOA的形成机制提供了实验依据.     

浙北地区真菌气溶胶示踪物季节分布特征

于2014年12月—2015年11月收集了浙江北部地区4个采样点的PM2.5样品,利用高效液相色谱-串联质谱仪分析获得真菌气溶胶示踪物阿糖醇和甘露醇的浓度,研究了浙北地区真菌气溶胶的季节性变化特征及其来源.观测结果显示,浙北地区阿糖醇和甘露醇的年均浓度分别为(5.6±0.7)和(5.7±1.3)ng·m-3.真菌气溶胶示踪物夏季浓度最高,可能是由于当地夏季频繁的生物质燃烧和温暖湿润的气候条件促进了真菌孢子的释放;另外,在该地区真菌孢子对气溶胶中有机碳(OC)的贡献并不显著(1%).主成分分析显示,真菌气溶胶示踪物(阿糖醇、甘露醇)和生物质燃烧示踪物(左旋葡聚糖、甘露聚糖、半乳聚糖、nss-K+)在整个采样过程中都包含在同一个因子中,表明浙北地区大气中真菌气溶胶持续受到生物质燃烧排放源的影响.