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1.
The sources and seasonal variations of organic compounds in PM<Subscript>2.5</Subscript> in Beijing and Shanghai 总被引:1,自引:0,他引:1
Yilun Jiang Ximei Hou Guoshun Zhuang Juan Li Qiongzhen Wang Rong Zhang Yanfen Lin 《Journal of Atmospheric Chemistry》2009,62(3):175-192
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. 相似文献
2.
PM2.5 aerosols were sampled in urban Chengdu from April 2009 to January 2010, and their chemical compositions were characterized in detail for elements, water soluble inorganic ions, and carbonaceous matter. The annual average of PM2.5 was 165g m-3, which is generally higher than measurements in other Chinese cities, suggesting serious particulate pollution issues in the city. Water soluble ions contributed 43.5% to the annual total PM2.5 mass, carbonaceous aerosols including elemental carbon and organic carbon contributed 32.0%, and trace elements contributed 13.8%. Distinct daily and seasonal variations were observed in the mass concentrations of PM2.5 and its components, reflecting the seasonal variations of different anthropogenic and natural sources. Weakly acidic to neutral particles were found for PM2.5. Major sources of PM2.5 identified from source apportionment analysis included coal combustion, traffic exhaust, biomass burning, soil dust, and construction dust emissions. The low nitrate: sulfate ratio suggested that stationary emissions were more important than vehicle emissions. The reconstructed masses of ammonium sulfate, ammonium nitrate, particulate carbonaceous matter, and fine soil accounted for 79% of the total measured PM2.5 mass; they also accounted for 92% of the total measured particle scattering. 相似文献
3.
The Atmospheric Environmental Monitoring Network successfully undertook the task of monitoring the atmospheric quality of Beijing and its surrounding area during the 2008 Olympics.The results of this monitoring show that high concentrations of PM2.5 pollution exhibited a regional pattern during the monitoring period(1 June-30 October 2008).The PM2.5 mass concentrations were 53 μg m 3,66 μg m 3,and 82 μg m 3 at the background site,in Beijing,and in the Beijing-Tianjin-Hebei urban agglomerations,respectively.The PM2.5 levels were lowest during the 2008 Olympic Games(8-24 August):35 μg m 3 at the background site,42 μg m 3 in Beijing and 57 μg m 3 in the region.These levels represent decreases of 49%,48%,and 56%,respectively,compared to the prophase mean concentration before the Olympic Games.Emission control measures contributed 62%-82% of the declines observed in Beijing,and meteorological conditions represented 18%-38%.The concentration of fine particles met the goals set for a "Green Olympics." 相似文献
4.
基于WRF/Chem(Weather Research Forecasting/Chemistry)模式对2015年11月25日至12月2日我国北方一次大范围PM2.5(空气动力学当量直径小于等于2.5 μm的颗粒物,即细颗粒物)重污染过程进行了模拟。与观测资料对比表明,模式能够较好地模拟出PM2.5浓度及气象因素的变化趋势,结果适用于此次污染事件的机理分析。动力、热力条件及化学转化等因素对此次强污染事件形成的机理分析表明,动力因子主要通过表面风和垂直风切变的减弱对此次污染事件造成影响,边界层逆温等热力因子促进了大气稳定性的增强,不利于污染物扩散。依据PM2.5组成成分变化分析可知,硝酸盐、硫酸盐和有机碳在此次事件中含量增加,说明机动车汽车尾气和燃煤排放所致的二次气溶胶生成对PM2.5污染加剧起重要贡献。多元线性回归分析和多因子相对贡献率量化解析结果表明,热力因子在此次污染过程中起主要作用,方差贡献率为52%,动力因子次之,方差贡献率为34%,而化学转化方差贡献率约为14%,说明气象条件,尤其是热力条件是引起此次污染事件的主要原因。 相似文献
5.
通过国务院“大气十条”等严格的大气污染治理措施的实施,近年来我国空气质量得到全面改善。对大气污染治理效果开展科学分析研究,可为后续空气质量持续改善、污染科学精准治理提供有效科技支撑。由于气象条件是影响污染物浓度分布的重要因素,治理效果分析的一个重要问题是区分气象条件和减排措施对污染物浓度变化的具体贡献。本文利用京津冀地区13个城市2013~2018年86个监测站点逐日PM2.5浓度以及欧洲中期气象预报中心(ECMWF)气象再分析资料,采用KZ(Kolmogorov–Zurbenko)滤波分析PM2.5浓度观测序列的时频特性,将其分解为短期天气影响分量、中期季节变化分量以及长期趋势分量3个部分,针对分解浓度序列建立气象因子回归模型,实现定量评估气象和减排对治理效果的具体贡献。在研究时间段内,京津冀地区13个城市PM2.5浓度的长期分量显著下降(22.2%~58.0%),其中邢台市下降幅度最大(58.0%)。整体分析表明,气象条件和排放源均有利于大气污染的改善,但减排措施是空气质量显著改善的决定性原因,具体贡献为气象条件的影响占18.5%,排放源的影响占81.5%。逐城分析表明,唐山市的气象条件最有利于PM2.5浓度的减小(29.2%),而衡水市的减排措施最有利于PM2.5浓度的减小(92.0%)。 相似文献
6.
Polycyclic aromatic hydrocarbons and their molecular diagnostic ratios in urban atmospheric respirable particulate matter 总被引:2,自引:5,他引:2
María del Rosario Sienra Nelson G. Rosazza Margarita Prndez 《Atmospheric Research》2005,75(4):267-281
Atmospheric concentrations of polycyclic aromatic hydrocarbons (PAHs) in Santiago de Chile city were evaluated to study particulate PAHs profiles during cold and spring weather periods. Urban atmospheric particulate matter PM10 was collected using High Volume PM10 samplers. Fifteen samples of 24 h during austral winter and 20 samples of 24 h during spring, 2000 were collected at two sampling sites (North–East and Central areas of the city) whose characteristics were representative of the prevailing conditions. Seventeen PAHs were quantified and total PAHs concentration ranged from 1.39 to 59.98 ng m−3, with a seasonal variation (winter vs. spring ratio) from 0.5 to 12.6 ng m−3. Molecular diagnostic ratios were used to characterize and identify PAHs emission sources such as combustion and biogenic emissions. Results showed that the major sources of respirable organic aerosol PM10 in Santiago are mobile and stationary ones. 相似文献
7.
秸秆燃烧对北京秋季气溶胶浓度和短波辐射影响的模拟研究 总被引:1,自引:0,他引:1
利用地面细颗粒物(PM2.5)浓度和气象常规观测资料、地基 AERONET观测资料、GFED生物质燃烧排放清单和大气化学—天气耦合模式WRF-Chem,模拟研究了华北地区2014年10月气象要素和大气污染物的时空演变,重点关注北京10月7~11日的一次重霾事件及其天气形势、边界层气象特征、输送路径、PM2.5及其化学成分浓度变化等特征,以及秸秆燃烧对华北和北京地区细颗粒物浓度和地面短波辐射的影响。与观测资料的对比结果显示,模式可以很好地模拟北京地区地面气象要素和PM2.5质量浓度,考虑秸秆燃烧排放源可以明显改进北京PM2.5浓度模拟的准确性,但在重度污染情况下,模式总体上低估气溶胶光学厚度和高估地面短波辐射。10月7~11日北京地区重霾事件主要是不利气象条件下人为污染物累积和区域输送造成,也受到华北地区南部秸秆燃烧的影响。河南北部、河北南部和山东西部大面积秸秆燃烧释放的气态污染物和颗粒物在南风的作用下输送至北京,秸秆燃烧对北京地区地面PM2.5、有机碳(OC)、硝酸盐、铵盐、硫酸盐和黑碳(BC)的平均贡献率分别为24.6%、36.8%、23.2%、22.6%、7.1%和19.8%,秸秆燃烧产生的气溶胶可以导致北京地面平均短波辐射最大减小超过20 W m-2,约占总气溶胶导致地表短波辐射变化的24%。 相似文献
8.
空气污染能够影响人体健康、交通运输、农业生产等,会对国家经济造成损失。多年来,北京一直是空气污染严重地区,而冬季燃煤采暖是一个重要的原因。2016~2017年,北京大力优化采暖的能源结构,旨在改善空气质量。本文通过分析5个位于北京不同区域的空气质量监测站的PM2.5、PM10、SO2、NO2和CO污染物浓度,对比了2018年和2015年的空气质量变化情况。结果显示:2018年5个站5种污染物浓度较2015均下降,平均下降幅度为37.3%,而5个站降幅最大的污染物浓度都是SO2,平均降幅为59.2%。进一步分析表明,两年5种污染物浓度的差距主要来自冬季的取暖时期。2018年冬季5个站重空气污染(PM2.5浓度>150 μg/m3)天数较2015年平均下降率高达91.3%,比其他季节多了41.3%。相较于2015年,5个站平均的2018年冬季5种污染物浓度平均下降值是其他季节的4.8倍,平均下降的幅度是其他季节的2.3倍。逐小时数据分析显示,2018年较2015年冬季污染物浓度下降比较大的时刻主要来来自暖更多的时间段。结合气象条件分析表明,北京冬季采暖优化很大程度地提高了空气质量,这为有相似采暖方式的城市的空气污染治理提供借鉴和参考。 相似文献
9.
PM10 samples from a garden site (site A), an industrial-traffic intersection (site B), a residential site (site C) and an island site (site D) were collected at December 21–29, 2004; March 18–22, 2005; July 4–13, 2005 and October 24–28, 2005 in Xiamen. 15 priority PAHs compounds were analyzed by using a gas chromatograph/mass spectrometer (GC/MS). The abundance and origin of PAHs are discussed to reveal seasonal variations in Xiamen air quality. Average concentrations of Σ15PAHs were 17.5 ng/m3, 3.7 ng/m3, 32.6 ng/m3 and 10.5 ng/m3 from spring to winter with the highest value in autumn. The dominant PAHs components in every season were low and middle molecular weight PAHs including phenanthrene, pyrene, fluoranthene and chrysene. Diagnostic ratios and PCA analysis identified the main sources of particle bound PAHs: mainly from both gasoline and diesel vehicles exhaust, with some contribution from coal combustion, industry emission and cooking sources. 相似文献
10.
该文对2016年11—12月北京及周边地区不同站点重污染期间PM2.5质量浓度变化特征进行分析,并结合地面和探空气象要素及化学组分等对重污染成因进行深入探讨,比较了其中两次持续3 d及以上重污染过程的异同。结果表明:重污染期间北京及周边地区PM2.5质量浓度较高,北京上甸子站、顺义站、朝阳站的PM2.5质量浓度分别为73.1,130.8,226.0 μg·m-3,河北保定站和石家庄站分别为357.8 μg·m-3和346.9 μg·m-3。12月17—21日重污染过程比11月3—5日持续时间更长且PM2.5质量浓度更高。通过对11—12月所有重污染过程分析发现,北京颗粒物重污染发生的主要气象条件是静稳天气。在排放源相对稳定情况下,逆温层的结构、演变和持续时间决定了重污染的程度,其中污染持续时间和污染期间的主导逆温层类型演变对重污染程度有较好的指示作用。较低的水平风速、逆温层的持续出现及更多的燃煤和机动车尾气排放是12月17—21日污染偏重的原因。 相似文献
11.
为了解邢台沙河市冬季大气污染特征,选取2017年12月至2018年2月沙河市区3个省控站点(司法局、市政府、宣传中心)的逐时监测数据,分析了沙河市主要污染物的时空分布特征和潜在源区。污染物浓度特征分析表明:整个冬季司法局、市政府和宣传中心站点的细颗粒物(PM2.5)平均浓度分别为118.0 μg/m3、121 μg/m3和135 μg/m3。在大气自然活动和人为污染排放的共同作用下,PM10、PM2.5、SO2、NO2和CO均有明显的日变化特征。整个冬季沙河市的ρ(PM2.5)/ρ(PM10)、ρ(SO2)/ρ(NO2)均值分别为0.57和1.05(ρ为各物质的浓度)。且随着污染加重,ρ(PM2.5)/ρ(PM10)、ρ(SO2)/ρ(NO2)均明显升高,表明燃煤贡献增加;污染物空间分布特征分析表明:位于3个站点东北处的玻璃企业产生的污染物可能对监测站点造成了一定影响。污染物空间差异分析表明,区域污染范围越大、强度越高,大气污染的空间差异性越小;潜在源分析表明:沙河市PM2.5的强潜在源区分布在其周边区域,随着PM2.5浓度增加,强潜在源区呈缩小趋势。沙河市东南部的本地源对PM2.5浓度有主要贡献,而此处正是玻璃企业的聚集地。 相似文献
12.
城市大气污染及其引起的健康效应一直是关注的热点。本研究对2018年春季西北五省省会城市PM2.5、PM10、NO2、SO2、CO和O3浓度数据进行了系统分析,并采用美国环境保护署(United States Envi‐ronmental Protection Agency,USEPA)推荐的健康风险评价模型评估了PM2.5、PM10、SO2和NO2的健康风险。结果表明:PM2.5和PM10为主要超标污染物。除乌鲁木齐市(该市PM10春季平均质量浓度亦超标)外,其余四个城市PM2.5和PM10的春季平均质量浓度均超过国家二级标准。各城市SO2、NO2、O3和CO的污染水平较低。2018年春季各城市空气质量以良好至轻度污染为主。各城市人群PM2.5和PM10的春季健康风险均在USEPA规定的可接受风险范围内。SO2和NO2的健康风险均未超过瑞典、荷兰等国推荐的可接受风险值。SO2和NO2对老人产生的健康风险最小,儿童最大,儿童为较敏感受体。儿童(<6岁)SO2/NO2的春季健康风险约是成人(18~60岁)的1.2/1.3倍,是60岁以上人群的1.7/1.8倍。不同性别及年龄阶段人群SO2和NO2的健康风险存在差异,6~17岁人群和60岁以上老人的健康风险有女性>男性的特点,6岁以下儿童与18~60岁成人的健康风险则表现为男性>女性。 相似文献
13.
为研究石家庄市采暖期与非采暖期大气细颗粒物(PM2.5)中多环芳烃(Polycyclic Aromatic Hydrocarbons,PAHs)的污染特征及其人群健康效应,采集了石家庄市2017年1月—2019年12月每月10—16日PM2.5样品,使用气相色谱-质谱联用仪测定PM2.5中优先控制的16种多环芳烃的浓度,分析采暖期与非采暖期PM2.5中多环芳烃的污染水平及组成特征,利用特征比值法和主成分分析法对其来源进行定性判断,并采用健康风险评估模型以及预期寿命损失评估多环芳烃对人群的健康风险。结果表明:①PM2.5及其中多环芳烃浓度平均水平在采暖期分别为106.00 μg/m3、44.17 ng/m3,非采暖期分别为73.00 μg/m3、40.17 ng/m3。16种多环芳烃中含量最高的是苯并[a]芘,其次为苯并[k]荧蒽、苯并[b]荧蒽、?。多环芳烃单体环数越高其致癌作用越强,不同环数多环芳烃单体的占比在采暖期与非采暖期有所不同;采暖期为4环>5环>2—3环>6环,非采暖期呈5环>4环>6环>2—3环的趋势。②特征比值法和主成分分析法结果显示,采暖期多环芳烃的主要来源为煤炭燃烧,非采暖期的主要来源为机动车尾气排放。③健康风险分析表明,采样期间终身致癌超额危险度和预期寿命损失均呈非采暖期>采暖期,成人>青少年>儿童。不同年龄组人群中终身致癌超额危险度值均为10?6—10?4,表明石家庄市大气PM2.5中多环芳烃具有潜在的致癌风险。在男性儿童、青少年、成人中的预期寿命损失分别为41.18、54.72、110.42 min,在女性儿童、青少年、成人中预期寿命损失分别为42.93 、57.53、101.05 min。研究显示,石家庄市PM2.5中多环芳烃对所有人群均具有潜在致癌风险, PM2.5中多环芳烃通过呼吸暴露对人群造成的预期寿命损失需引起重视。 相似文献
14.
北京地区气溶胶PM2.5粒子浓度的相关因子及其估算模型 总被引:20,自引:0,他引:20
文中运用统计分析和气象统计预报的方法 ,使用北京白石桥小区的污染物观测资料和同期北京地区的气象观测资料 ,对影响大气污染的气象因子进行了综合分析 ,并分别建立了气溶胶PM 2 .5粒子浓度与气体污染物、气象要素场的两类统计相关拟合模型。发现气溶胶PM2 .5粒子浓度与气体污染物浓度存在不同程度的相关性 ,且与气象条件亦存在显著的相关关系 ,此类时空变化及其量化估算模型具有一定实际应用价值。通过确定气象要素场和气溶胶浓度的关系可进一步研究不同地区的污染物输送和污染源扩散影响的问题。 相似文献
15.
A field-based intercomparison study of a(DOAS) instrument (OPSIS AB, Sweden) andcommercial Differential Optical Absorption Spectroscopydifferent point-sample monitoring techniques (PM, basedon an air monitoring station, an air monitoring vehicle, and various chemical methods) was conducted inBeijing from October 1999 to January 2000. The mixing ratios of six trace gases including NO, NO2, SO2,03, benzene, and toluene were monitored continuously during the four months. A good agreement betweenthe DOAS and PM data was found for NO2 and SO2. However, the concentrations of benzene, toluene,and NO obtained by DOAS were significantly lower than those measured by the point monitors. Theozone levels monitored by the DOAS were generally higher than those measured by point monitors. Theseresults may be attributed to a strong vertical gradient of the NO-O3-NO2 system and of the aromatics atthe measurement site. Since the exact data evaluation algorithm is not revealed by the manufacturer ofthe DOAS system, the error in the DOAS analysis can also not be excluded. 相似文献
16.
We present mobile vehicle lidar observations in Tianjin, China during the spring, summer, and winter of 2016. Mobile observations were carried out along the city border road of Tianjin to obtain the vertical distribution characteristics of PM2.5. Hygroscopic growth was not considered since relative humidity was less than 60% during the observation experiments. PM2.5 profile was obtained with the linear regression equation between the particle extinction coefficient and PM2.5 mass concentration. In spring, the vertical distribution of PM2.5 exhibited a hierarchical structure. In addition to a layer of particles that gathered near the ground, a portion of particles floated at 0.6–2.5-km height. In summer and winter, the fine particles basically gathered below 1 km near the ground. In spring and summer, the concentration of fine particles in the south was higher than that in the north because of the influence of south wind. In winter, the distribution of fine particles was opposite to that measured during spring and summer. High concentrations of PM2.5 were observed in the rural areas of North Tianjin with a maximum of 350 μg m–3 on 13 December 2016. It is shown that industrial and ship emissions in spring and summer and coal combustion in winter were the major sources of fine particles that polluted Tianjin. The results provide insights into the mechanisms of haze formation and the effects of meteorological conditions during haze–fog pollution episodes in the Tianjin area. 相似文献
17.
Pollutant dispersion characteristics in Dhaka city, Bangladesh 总被引:1,自引:0,他引:1
Air pollution is a major environmental concern in major cities around the world. The major causes of air pollution include rapid industrialization/urbanization and increased non environment-friendly energy production. This paper analyses the atmospheric pollutant such as carbon monoxide (CO) and particulate matter (PM) dispersion characteristics of Dhaka city. The yearly and diurnal variations of pollutant concentration are described by taking into consideration of both meteorological and emission source parameters highlighting washout effect due to rainfall and inversion phenomena. Concentration of PM (both PM2.5 and PM10) and CO in the ambient air are measured for a period of one year with Airmetric Minivol air samplers and Gas Chromatographic (GC) technique, respectively. The trend over the year shows an increase in the monthly average hourly PM and CO concentrations in winter months (November to March) when both PM10 and PM2.5 annual average concentrations (about 130 and 95 ??g m?3, respectively) exhibit levels exceeding World Health Organization (WHO) guidelines as well as exceed more than twice the national standards of annual PM10 (50 ??g m?3) and PM2.5 (15 ??g m?3) concentrations. Such high pollutant concentrations may have significant health implications for residents of Dhaka city. It is also found that the PM concentration increases with the increase of wind speed during dry winter season and is also influenced by transboundary air pollution. The data and subsequent recommendations can be useful in formulating air quality management strategies for the Dhaka city. 相似文献
18.
通过对龙华新区2个监测站点2012年的PM2.5监测数据进行分析,得出新区PM2.5年均质量浓度值为0.043mg/m^3,全年总超标天数为30d,超标率为8.2%。PM2.5污染具有明显的季节性特征,干季污染严重,雨季则较轻。新区常年盛行偏北风,处于东莞、惠州等污染严重区域的下风向,且风速偏小,是新区PM2.5来源及质量浓度升高的重要原因之一。同时,利用大气环境影响评价系统的AERMOD模型对新区PM2,污染质量浓度分布进行模拟,结果显示新区PM2.5主要来自本地污染源,贡献率为51.2%,外地污染源贡献率为48.8%。其中,PM2.5污染主要受机动车尾气和道路扬尘影响,贡献率为32.0%,其次是施工项目和裸露土地影响,贡献率为18.2%,工业污染源影响非常小。 相似文献
19.
2004年北京秋季大气颗粒物的化学组分和来源特征 总被引:1,自引:0,他引:1
2004年9月在北京城区进行了大气颗粒物采样,样品用PIXE方法进行了分析,得到了20种元素的浓度及其谱分布。并对北京颗粒物的谱分布、富集因子和来源进行了分析研究。发现K元素浓度分布呈细粒态单峰谱分布,细粒态K富集因子较高,表明了生物质燃烧的主要贡献。因子分析结果还表明,土壤尘、生物质燃烧、煤烟尘、工业源和汽车尾气排放源对秋季北京局地排放源有明显贡献。 相似文献
20.
2010年广州亚运限行减排对大气环境的影响 总被引:3,自引:0,他引:3
通过对亚运会、亚残运会期间限行减排各个阶段的广州和相邻城市监测到的污染物浓度以及同期的天气背景进行分析,探讨污染源、城市的地理位置、天气条件和限行减排对亚/亚残运会期间广州大气环境的影响,结果表明:由于人为限行减排、城市的地理位置和气象扩散条件等各种因素综合作用,使得亚运会期间广州统计平均的能见度基本大于10 km;机动车的限行减排对PM10的削减作用不如PM2.5和PM1明显;限行减排对广州O3浓度控制"不敏感",但是会导致浓度峰值时间相对广东东莞出现1小时左右时间"滞后";珠江三角洲(简称珠三角)的大气环境问题呈现区域性,而且污染程度不容乐观,将来对该区域的大气环境治理需要进行长期持续的联防联控。 相似文献