利用MODIS光学厚度遥感产品研究北京及周边地区的大气污染

对2001年在北京地区利用太阳光度计观测的气溶胶光学厚度和NASA发布的MODIS气溶胶产品进行了比较,验证了这一卫星遥感产品的可靠性;比较了2001年MODIS气溶胶光学厚度(AOD)产品和由空气污染指数(API)计算的每日平均可吸入颗粒物(PM10)浓度,得到了比较高的相关系数,证实该气溶胶产品可用于污染分析.将北京地区AOD与气象能见度观测资料进行比较,得到了不同季节的气溶胶"标高".利用统计的不同季节的气溶胶标高,从光学厚度的季节分布得到了能见度(能见距离)的季节分布.气溶胶光学厚度图像的个例分析表明,除局地排放外,周边区域(主要为西南和南向)的输送对北京市区的空气污染贡献份额较大.卫星遥感气溶胶可以比较直观地再现污染物的区域分布和输送,不仅为研究全球气候变化也为研究区域环境的空气质量提供了一种有效手段.     

珠江三角洲区域大气输送和扩散的季节特征

根据1985—2004年NCEP/NCAR再分析资料,采用HYSPLIT扩散模式和虚拟源方法,模拟分析了珠江三角洲大气污染物的空间和时间分布状况,初步讨论了珠江三角洲大气输送和扩散的季节特征,及其长期变化趋势。结果表明:珠江三角洲大气的输送和扩散有明显的季节变化特征,春、夏季大气污染物汇聚区位于珠江三角洲的西北侧,秋、冬季位于偏西侧;春、夏季的汇聚区明显强于秋、冬季。春、夏季大气分别向珠江三角洲西北和偏北方向的山区输送和扩散,而秋、冬季则沿着较为平坦的粤西海岸,向西南偏西方向输送和扩散。秋、冬季大气污染物的滞留时间明显比春、夏季短。1985—2004年大气输送和扩散能力存在年际差异,其中以2004年的输送和扩散能力最弱、1996年最强。     

东亚太平洋地区近地面臭氧的季节和年际变化特征及其与东亚季风的关系

利用东亚清洁背景站近地面臭氧观测资料,结合风场和降水资料,分析东亚各地区臭氧的多年季节变化特征,并探讨东亚太平洋地区臭氧的季节和年际变化与季风的关系以及影响近地层臭氧的主要因子。结果表明：东亚大部分地区与北半球背景站观测一致,近地层臭氧季节变化表现为春季最高、夏季最低的特征;但在东亚中纬度33～43°N,臭氧表现为夏季最高,而在东亚20°N以南地区臭氧则表现为冬末、春初最高。东亚太平洋沿岸近地面臭氧的季节变化主要受东亚冬、夏季风环流的季节变化控制。该地区不同纬度上春季峰值出现时间的差异与亚洲大陆春季不同时期污染物输送路径的差异有关。对东亚太平洋沿岸对流层顶附近位势涡度、高空急流和垂直环流季节变化的分析表明,冬春季可能是平流层向对流层输送的最强期,对近地面臭氧贡献最大。初夏至秋季（5-11月）,平流层向对流层输送较弱,对近地面臭氧贡献较小。东亚太平洋地区夏季风爆发的时间和强度以及季风环流型的年际差异是导致该地区春、夏季臭氧年际变化的主要原因;而季风降水和云带位置以及平流层一对流层交换是造成臭氧年际变化的其他原因。     

合肥市PM10 输送轨迹分类研究

应用聚类分析的方法,对2001—2005年合肥市逐日72 h后向轨迹按季节分类,结合PM10日均浓度观测资料,分析了不同输送轨迹与该地区PM10浓度之间的关系。结果表明:不同方向后向轨迹所对应的PM10平均浓度有明显不同;最高PM10平均浓度对应的后向轨迹在春、秋和冬季都是来自西北方向,它们与季节平均的相对距平分别为44%,20%和31%;夏季为东北方向,与季节平均的相对距平为20%;其次为本地轨迹,各季的相对距平分别为5%,16%,18%和17%。根据分析得出合肥地区6组易于出现高浓度PM10的后向轨迹及对应的天气形势,并简要分析了其特征。气溶胶的远程输送主要发生在自由大气层,区域输送主要发生在边界层内。合肥地区大气污染事件超过50%与远程输送有关。移动快的气团不一定对应低浓度的PM10。     

Polycyclic aromatic hydrocarbons (PAHs) associated with atmospheric particles in Higashi Hiroshima, Japan: Influence of meteorological conditions and seasonal variations

This work studied the influence of meteorological conditions on particulate polycyclic aromatic hydrocarbons (PAHs) in the atmosphere of Higashi Hiroshima, Japan. The seasonal variation of particulate PAHs was also covered. It was found that ambient temperature, solar intensity and weekly rainfall had significant influence on the particulate PAH concentration based on correlation studies. Correlation of particulate PAHs with ambient temperature, solar intensity, weekly rainfall, wind speed and humidity was studied by using Pearson correlation analysis. Particulate PAHs had a strong negative correlation with ambient temperature and solar intensity. A moderate negative correlation with weekly rainfall was also observed. There was no significant correlation between particulate PAHs with wind speed as well as humidity. Besides, particulate PAHs were found to have significant positive correlation with sulfur dioxide and nitrogen dioxide while having a moderate negative correlation with ozone. The particulate PAHs in Higashi Hiroshima exerted distinct seasonal variation with a higher concentration in winter and lower concentration in summer. When compared among PAHs with different numbers of aromatic rings; 5-ring PAHs was found to exert the most distinct seasonal variation. The contribution of carcinogenic PAHs to total particulate PAH concentration was fairly constant at about 50% throughout the year.     

周边气象条件对南京城区大气污染物浓度的影响

针对2014年8月南京国际青年奥林匹克运动会期间周边地区污染源的减排控制研究,本文将2010-2012年8月的NCEP/NCAR 的6 h再分析资料作为驱动场,利用WRF模式处理得到时空尺度更为精细的风场资料,结合南京奥体中心观测点的颗粒物及气体污染物浓度资料,通过相关分析以及合成分析,诊断得到了8月影响南京地区主要污染物的周边源区及其关键输送通道。结果表明：尽管8月青奥会时段南京地区主导风为海洋吹向大陆的东南风,但影响南京地区主要污染物（SO₂,NO₂,PM₁₀）浓度的外源及其主要输送路径各有不同。来自于南京西南部江西、湖南、湖北等地区的较远距离输送是对南京地区SO₂浓度影响的关键通道;来自于南京正南方向（安徽、浙江一带）的近距离输送是对南京地区NO₂浓度影响的关键通道;来自于南京西南部（湖北一带）的中远距离输送是对南京地区PM₁₀浓度影响的关键通道。     

Relative influence of weather conditions and air pollutants on solar radiation – Part 2: Modification of solar radiation over urban and rural sites

Summary In the first part of this study, intensive measurements of particulate matter and trace gaseous were made to assess the characteristics of air pollutants in 14 sites covering most of Egypt, and to present a clear picture about the relationship of air pollutants with meteorology. The goal of this study is to examine the effect of weather conditions and air pollutants on the receipt of solar radiation during cloudless days at five sites. The results have shown, that the relative attenuation of the total solar radiation varied dramatically from 22% in winter to about 9.3% in summer. This finding may be attributed to PM₁₀ and CO effects, which are in the highest level during winter.     

The sources and seasonal variations of organic compounds in PM<Subscript>2.5</Subscript> in Beijing and Shanghai

Fine aerosol samples were collected throughout spring, summer, and winter in 2004∼2005 at a major urban traffic junction (BNU) and a suburban location (MY) in Beijing and at a downtown site (SH) in Shanghai, China. Ten of the 16 EPA priority polycyclic aromatic hydrocarbons (PAHs), seven fatty acids, levoglucosan, and cholesterol were identified and quantified. PAHs detected in Beijing and Shanghai were up to one order of magnitude higher than those reported in the developed countries either in urban or suburban areas, while levoglucosan was one order of magnitude lower than that in other countries for no biomass combustion in domestic heating in the mega-cities in China. PAHs showed the same seasonal trend in all sampling sites as the highest in winter and the lowest in summer, while fatty acids no pronounced seasonal variation. A significant fraction of levoglucosan from cooking with higher concentrations in urban than in suburban area contributed to the ambient atmosphere, indicating that the main source of levoglucosan in urban environment would be cooking rather than biomass burning. The relative contributions of coal combustion and vehicle exhaust sources to PAHs in fine aerosols were preliminarily estimated to be 1:2 in Beijing and 1:1 in Shanghai, revealing that the air pollution in these mega-cities in China was mainly the mixing of coal combustion with vehicle exhaust. Cooking was one of the major sources of organic aerosols in both Beijing and Shanghai.     

北京中央商务区(CBD)城市热岛效应的研究

利用2012~2013年北京中央商务区（Central Business District,CBD）加密观测资料,分析CBD区域城市热岛（Urban Heat Island,UHI）强度日变化和空间变化特征及其影响因子。研究发现,CBD区域气温高于周边自动站气温,平均偏高0.64℃;CBD区域城市热岛强度呈现夜间强、白天弱的现象,中午甚至存在“城市冷岛”现象。季节平均UHI日变化表现为:在夜间,秋季最强,冬季次之,春季和夏季较弱;在白天,夏季最强,冬季次之,春季和秋季较弱。相对于晴朗无风天气,雾、雨、大风等天气对城市热岛有抑制作用,并结合小波分析结果发现,秋季城市热岛强度强于冬季是由于冬季雾、雨、大风等天气过程发生比例较高的缘故。CBD区域城市热岛空间变化特征研究发现,花园、学校等绿地有助于缓解城市热岛效应。雾日、雨日和大风日的CBD区域城市热岛强度空间变化标准差比晴朗无风日小。     

呼和浩特市大气污染与天气气候的关系

利用1990～2002年呼和浩特市区空气污染物TSP、SO2、NOx浓度的实际监测数据,分析了呼和浩特市大气污染物浓度变化的时空分布特征、大气污染与天气条件的关系。呼和浩特市市区主要以煤烟型污染为主,冬、春季比夏、秋季污染严重,采暖期比非采暖期污染严重,市区中心污染最严重。污染物的排放量及大气的稳定度状态是城市大气污染的主要影响因子,天气变化是城市大气污染物浓度变化的主导因素,局地环流是决定城市污染物分布的关键因素。因此,不同季节排污量的变化、天气条件是制作呼和浩特市大气污染预报的主要依据。     

2017年漳州海陆风特征与冬春季污染物浓度关系

利用2017年福建漳州和南部海岛气象观测资料,通过统计分析和人工订正判识海陆风日,再结合天气形势和污染物浓度资料分析海陆风日的天气特征及其与污染物浓度的关系。结果表明：漳州海陆风日是海岛站的2.2倍,春夏季是海陆风的高发季节,秋冬季相对较少。冬季海陆风日主导天气形势为变性冷高压、高压后部、锋前暖区等,气象要素场配置为气压梯度小、气温高、风速小、日照时间长、湿度低、云量少,气象条件不利于污染物的稀释、扩散;海陆风影响下除了O₃,其他5种污染物浓度均高于系统风日2—3倍,其中颗粒物浓度明显偏高。与冬季不同,春季海陆风不仅对颗粒物浓度升高有利,对O₃浓度升高贡献更加明显,主导天气形势、气象要素场配置与冬季类似;海陆风影响下所有污染浓度均高于系统风日1—2倍,且易出现O₃超标现象。研究显示,漳州的海陆风全年发生频率虽然不到30%,但其特有的日变化规律和局地环流结构对污染物累积、输送具有重要的影响。     

长江三角洲区域本底大气中致酸气体体积分数变化特征

利用2003-12—2004-11浙江临安区域大气本底站大气NOx、SO2体积分数的连续观测资料,分析其季节变化和日变化特征。结果表明：长江三角洲区域本底大气中致酸气体NOx、SO2体积分数值均为冬季最高,分别为23.81×10^-9和37.3×10^-9,主要受来自东北方向宁、沪区域城市群的相对高浓度污染物随气团传输影响;夏季最低,主要是局地源的贡献。降水对SO2去除作用明显,对NOx去除效果不大。NOx体积分数值冬季的日变化最为明显,呈现出一低一高的双峰型,09：00出现较高体积分数值,18：00出现最高体积分数值;而夏季为单峰型日变化,07：00出现最高体积分数值。SO2冬、春季的日变化明显,最高体积分数值出现在06：00左右,最低体积分数值出现在15：00左右。该区域NO2全年空气质量达到《环境空气质量标准》（GB 30952—1996）一级标准,SO2冬、春季超标较多,受到人类活动影响较明显。NO2和SO2空气污染指数在12月最大,分别为50和93。该区域NO2和SO2并未出现“周末效应”。     

四川盆地最大混合层厚度与大气污染物浓度的关系

基于2015～2018年四川盆地温江站、宜宾站、达川站和沙坪坝站的探空和地面观测资料以及同期AQI、6种主要污染物(SO₂、NO₂、CO、O₃、PM_2.5、PM₁₀)质量浓度资料,使用逐步逼近法计算得到了四川盆地成都、宜宾、达州、重庆四城市的每日最大混合层厚度(Maximum mixing depth,MMD),并对其时间变化特征及其与各种污染物浓度之间的关系进行了分析。结果表明,四川盆地年平均MMD约1200m。季节变化明显,春夏高、秋冬低。9月至次年1月MMD相对较小。相关分析显示,剔除降水影响后,MMD与AQI、PM_2.5、PM₁₀、SO₂、NO₂、CO浓度均呈负相关,而与O₃浓度显著正相关。在污染最为严重的冬季,MMD明显低于春夏季节。MMD越小、颗粒物浓度越高。低MMD大大压缩了近地面污染物的扩散空间,污染物在有限的空间内不断累积、浓度增大。      

2001-2011年西宁市空气质量特征及其与气象条件的关系

利用2001-2011年西宁市城市空气质量日报资料,研究西宁市区域性污染特征,并结合气象资料对空气质量变化特征和影响因素进行了分析。结果表明：西宁市空气污染以可吸入颗粒物为主要污染物,空气质量状况以优和良居多;空气质量季节变化特征明显,春季空气质量最差,其次是冬季和秋季,夏季空气质量最好,冬春季空气质量不稳定,夏秋季空气质量较稳定; 空气质量年变化幅度大,供暖期API指数明显高于非供暖期;沙尘影响指数呈现下降趋势;从年际变化来看,空气质量已经有了明显改善;气象要素对大气污染物有制约关系,其中起主要作用气象因子为沙尘日数、降水量、相对湿度和气温; 可吸入颗粒物长距离输送是西宁市冬春季重污染现象的主要原因,来源于新疆、甘肃西北部、内蒙古中西部及本省西北部的柴达木盆地。     

The statistical characters of PM10 in Belgrade area

The concentrations of air pollutants depend on meteorological conditions and pollutant emission level. From the statistical properties of air pollutants the number of times the daily average concentrations exceed the assigned air quality standard (AQS) can be estimated, as well as the level of reduction of particle matter emission sources required to meet the AQS. In this paper three statistical distributions (lognormal, Weibull and type V Pearson distribution) were used to fit the complete set of PM₁₀ data for the Belgrade urban area during a three-year period (2003–2005). The method of moments and the method of least squares were both used to estimate the parameters of the three theoretical distributions. The type V Pearson distribution represented the PM₁₀ daily average concentration most closely. However, the parent distributions sometimes diverged in predicting a high PM₁₀ concentration and therefore asymptotic distributions of extreme values were used to fit the high PM₁₀ concentration distribution more correctly. This method can successfully predict the return period and exceedances over a critical concentration in succeeding years. The estimated emission source reduction of PM₁₀ to meet the assigned standard varied from 53% to 63% in the Belgrade urban area. The results provide useful information for air quality management and could be used to examine the similarities and differences among air pollution types in diverse areas.     

Regional meteorological patterns for heavy pollution events in Beijing

The present study investigates meteorological conditions for the day-to-day changes of particulate matter (PM) concentration in Beijing city during the period 2008–2015. The local relationship of PM concentration to surface air temperature, pressure, wind speed, and relative humidity displays seasonal changes and year-to-year variations. The average correlation coefficient with PM₁₀ in spring, summer, fall, and winter is 0.45, 0.40, 0.38, and 0.30 for air temperature; –0.45, –0.05, –0.40, and –0.45 for pressure; 0.13, 0.04, 0.53, and 0.50 for relative humidity; and –0.18, –0.11, –0.45, and –0.33 for wind speed. A higher correlation with wind speed is obtained when wind speed leads by half a day. The heavily polluted and clean days, which are defined as the top and bottom 10% of the PM values, show obvious differences in the regional distribution of air temperature, pressure, and wind. Polluted days correspond to higher air temperature in all the four seasons, lower sea level pressure and anomalous southerly winds to the south and east of Beijing in spring, fall, and winter, and a northwest–southeast contrast in the pressure anomaly and anomalous southerly winds in summer. Higher relative humidity is observed on polluted days in fall and winter. The polluted days are preceded by an anomalous cyclone moving from the northwest, accompanied by lower pressure and higher air temperature, in all four seasons. This feature indicates the impacts of moving weather systems on local meteorological conditions for day-to-day air quality changes in Beijing.     

Urban air-quality assessment and source apportionment studies for Bhubaneshwar, Odisha

Acid- and water-soluble component of suspended particulate matter was studied from January 2009 to December 2009 at Bhubaneshwar, an urban coastal location of eastern India, by high-volume sampler, environmental dust monitor using GRIMM®, and scanning electron microscope and energy dispersive X-ray spectrometer. The water-soluble components accounted for 30–45 % of the total suspended particulate matter, and the major elements were observed to be ammonium and nitrate as the cationic and anionic species, respectively. The acid-soluble component like copper, nickel, cobalt, iron, and lead accounted for 5–15 % of the total particulate matter concentration. The composition of particulate matter shows a clear seasonal variation in relation to wind speed, wind direction, and trajectories of the air mass movement. The GRIMM spectrometer analysis shows higher concentration of fine particulate matter. Source apportionment and enrichment factor analysis indicated that except sodium and chloride, all other elements have emerged from different sources such as crustal as well as anthropogenic.     

Particulate matter trends and quantification of the spring sand-dust contribution in Hohhot,Inner Mongolia,from 2013 to 2017

2013年9月国务院颁布了《大气污染防治行动计划》.研究其实施前后呼和浩特市大气污染物浓度变化及及原因;同时,分析了春季沙尘天气对于呼和浩特市大气环境颗粒物浓度的定量影响.结果表明:呼和浩特市大气环境质量持续改善,但大气污染物浓度仍然较高.PM2.5和PM10年均浓度分别超过国家二级标准22.9％和35.7％;2013-2017年春季PM2.5和PM10浓度降幅较大,沙尘天气对呼和浩特市PM2.5,PM10,和TSP浓度的绝对贡献范围分别在0.6-5.2μg m-3,9.0-16.9 μg m-3和 14.7-30.0 μg m-3.     

Size distributions of ambient air particles and enrichment factor analyses of metallic elements at Taichung Harbor near the Taiwan Strait

This work attempts to characterize metallic elements associated with atmospheric particulate matter on a dry deposition plate, a TE-PUF high-volume air sampler and a universal air sampler. Dry deposition fluxes of particulates and concentrations of total suspended particulate, fine (PM_2.5) and coarse (PM_2.5–10) particulate matters were collected at Taichung harbor sampling sites from August 2004 to January 2005. Chemical analyses of metallic elements were made using a flame atomic absorption spectrophotometer coupled with hollow cathode lamps. Concentrations of metal elements in the forms of coarse particles and fine particles as well as the coarse/fine particulate ratios were presented. Statistical methods such as correlation analysis, principal component analysis and enrichment factor analysis were performed to compare the chemical components and identify possible emission sources at the sampling sites. Metallic elements of Cu, Zn, Pb, Cr, Ni and Mg had higher EF_crust ratios in winter and spring than in summer and autumn. Diurnal and nocturnal variations of metallic element concentrations in fine and coarse particles were also discussed.     

桂林城区大气能见度与颗粒物浓度和气象因子关系研究

利用2015年1月至2017年6月桂林国家基本气象站能见度、相对湿度、气温、气压、降水等气象要素和PM₁₀、PM_2.5、PM_1.0颗粒物质量浓度资料,分析桂林城区大气能见度与颗粒物浓度和气象因子之间关系。结果表明：桂林城区大气能见度和PM₁₀、PM_2.5、PM_1.0呈对数关系,相关系数分别为-0.341、-0.461、-0.509,颗粒物对大气能见度影响在相对湿度为60%—70%时最为显著。在各气象因子中,大气能见度与风速的相关性最好,其次为相对湿度,与风速呈二次函数关系,与相对湿度呈幂指数关系,与温度相关性较小,与气压在秋冬季节呈正相关,相关系数冬季可达0.301,但在春、夏季节相关性不显著;利用颗粒物浓度和气象要素建立8种大气能见度非线性统计回归模型,比较后发现利用PM_1.0、风速、相对湿度、气温等因子建立的不同季节大气能见度拟合公式在实际检验中效果最优,能较好地模拟桂林地区大气能见度的变化。