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1.
拉萨市大气污染分布特征及气象影响因子分析   总被引:4,自引:1,他引:3  
以2001~2006年拉萨市的空气环境质量自动监测结果为基础数据,阐明拉萨市区主要大气污染物SO2、NO2、PM10的逐日变化、季节变化以及年变化特征.在此基础上,分析了大气污染物浓度与气象条件的关系.结果表明,除NO2日夜差别不大之外,SO2与PM10质量浓度分别存在典型的单峰、双峰变化;各污染物质量浓度具有冬强夏弱的季节变化规律;就年平均而言,SO2浓度增加,PM10浓度降低,NO2浓度变化不显著,各污染物有明显的突变现象.大多数气象要素与污染物浓度具有较好的负相关,即满足降水量增加、温度升高、相对湿度增大会导致污染物浓度减小的规律,气象要素量级与大气污染天数多少也存在密切关系.  相似文献   

2.
为全面了解太原市的环境空气质量状况及污染物的时间变化规律,本文选取太原市8个站点2013年1月至12月六种主要污染物(SO2、NO2、PM10、CO、O3、PM2.5)为期一年的监测数据,评价该市2013年环境空气质量的总体情况,研究各污染物在不同时间尺度的变化特征及相互之间的关系。结果表明,2013年太原市环境空气质量以良和轻度污染为主,首要污染物主要为PM2.5和PM10;SO2、NO2、PM10、CO和PM2.5的小时变化规律较为一致,都呈现"双峰型"的变化特征,O3则呈显著的"单峰型"变化规律;上述六种污染物具有明显的季节变化特征,SO2的浓度峰值主要集中在供暖期,NO2和O3—8h浓度在夏季要高于其他季节,PM10的浓度峰值出现在春季(3月)和秋季(10月),CO的浓度峰值集中在11月和12月,PM2.5的浓度峰值主要集中在冬季;相关性分析结果表明,SO2、NO2、PM10、CO、PM2.5浓度日均值在全年各时段均具有很好的正相关性,化石燃料的燃烧可能是上述污染物质的共同来源。  相似文献   

3.
2001年~2008年及奥运会期间天津市大气污染特征分析   总被引:1,自引:1,他引:0  
根据天津市大气质量监测数据,对2001年~2008年及奥运会期间天津市大气污染特征和主要大气污染物的变化规律进行了分析。结果表明,2001年~2008年天津市的PM10、SO2和NO2污染总体呈下降趋势,但质量浓度仍相对较高。2008年8月奥运会期间天津市PM10和SO2质量浓度达到国家空气质量二级标准,NO2质量浓度达到国家空气质量一级标准,空气质量良好。天津市PM10污染相对稳定,SO2和NO2的污染分布呈现明显的季节性,时间上表现为冬强夏弱。气象条件对污染物浓度影响明显,沙尘、大雾等天气可使污染物浓度急剧升高。  相似文献   

4.
连云港市空气质量变化趋势分析   总被引:2,自引:0,他引:2       下载免费PDF全文
依据连云港市2002—2011年空气质量监测数据,对连云港市空气质量现状及其变化趋势进行系统的分析,并结合实际提出相应对策建议。结果表明,近年来连云港市空气质量总体良好,SO2浓度逐年下降,NO2浓度变化较平稳,PM10浓度下降显著。污染物浓度表现出明显的季节性特征,夏季浓度较低,春冬季较高;主城区各污染物浓度高于其他地区,但总体呈下降趋势。  相似文献   

5.
利用PM2.5质量浓度、地面气象要素、NCEP、ERSST_V3、GBL等资料,研究了2021年12月7—11日长株潭地区一次重度空气污染过程的特征及成因。结果表明,高空平直环流、无明显槽脊影响,地面弱冷空气活跃是本次重度空气污染过程的主要环流形势特征;地面均压场、小风和升温增湿是此次重度空气污染过程的主要气象要素特征。污染物浓度变化与主导风向和污染通道密切相关,本地风速对混合层的高度、污染物水平扩散影响较大,600~700 hPa逆温层有利于污染物在主导风作用下近距离传输及在低层交换积累。我国中东部污染物积聚是长株潭区域重要的污染来源,长株潭地区存在区域性同步污染现象。低层流入长株潭区域气流轨迹差异及地理条件是长株潭污染物空间分布差异的重要因素。  相似文献   

6.
选取了2001—2014年的相关数据,分析了江苏省水泥制造业的经济发展、资源能源消耗和污染物排放特征,同时对行业经济发展与大气环境污染变化进行了相关性分析。结果表明,2001—2014年,江苏省水泥制造业工业总产值呈现波动增加趋势,工业煤炭消费量呈现波动增加趋势,投入产出比呈现逐年波动上升态势;SO2的排放强度呈现波动下降的趋势,低于全省平均水平;烟粉尘的排放强度波动下降,高于全省平均水平;NOX的排放强度呈现波动上升的趋势,高于全省平均水平;SO2与烟粉尘排放量与GDP均高度呈负相关,回归曲线模拟基本类似U型的左半段,随着GDP的增加,SO2和烟粉尘的排放量呈现下降趋势。  相似文献   

7.
本文通过对长春市城区6个监测子站2007年1月至12月监测资料的统计,分析了长春市大气污染物季节变化规律,及各功能区间的空气质量差异。结合2001年以来的大气监测数据分析了长春市空气质量的总体变化趋势。结果表明,长春市空气质量季节变化明显,采暖期的大气污染物浓度明显增高,首要污染物是PM10。历年的数据显示PM10变化不明显,但SO2和NO2具有略有升高趋势。  相似文献   

8.
为全面了解"十一五"时期(2006—2010年)乌鲁木齐市大气污染状况,评估污染源治理及气象条件对空气质量变化的影响,利用2001年1月—2010年12月主要大气污染物浓度数据和同期地面气象资料,总结"十一五"时期乌鲁木齐市大气污染变化特征,重点分析其变化原因。结果表明:"十一五"时期PM10和SO2年均浓度分别比"十五"下降1.7%和10.3%,采暖季降幅最明显,分别达到2.2%和21.9%;而NO2年均浓度比"十五"升高8.9%,非采暖季增幅最大,为11.7%。2006—2010年PM10、SO2年均浓度整体呈下降趋势,NO2浓度有升高趋势。5年中非采暖季各污染物浓度均达标,采暖季PM10和SO2超标倍数逐年减小,煤烟型污染特征仍然典型。污染源管控(特别是减排工程实施)是"十一五"时期SO2和PM10浓度下降的重要原因,气象条件作用相对有限。NO2浓度升高主要与机动车保有量逐年增加和氮氧化物治理启动滞后有关。  相似文献   

9.
环境空气质量综合指数计算方法比选研究   总被引:1,自引:0,他引:1  
环境空气质量综合指数是进行逐月城市环境空气质量比较和排序的重要方法,提出了4种涵盖SO2、NO2、PM10、PM2.5、CO、O3等6项污染物的综合指数计算方法,基于2013年74个城市逐月污染物浓度数据使用主成分分析方法进行了对比分析。结果表明,综合指数计算方法中污染物统计指标和标准化方法不同对于主要污染物的判定有重要影响,各种计算方法中PM2.5、PM10、O3是出现频率最多的主要污染物;除O3外其他5项污染物逐月统计指标间均有极显著的正相关性,冬季O3统计指标与SO2、NO2、PM10、PM2.5呈显著负相关,夏季则呈显著正相关;主成分分析结果表明,在去除冗余信息后,PM2.5、PM10的权重被相对削弱,SO2、NO2、CO的权重得到相对强化,O3的权重夏季得到强化、冬季被削弱;综合考虑不同方案下主要污染物频率分布情况和PM2.5、PM10、O3权重变化特征,建议计算逐月环境空气质量综合指数时,SO2、NO2、PM10、PM2.5宜以月均值除以年均值标准进行标准化,CO、O3宜以特定百分位数浓度除以日均值标准(或8 h均值标准)进行标准化;该方法可延伸到季、半年和年度的环境空气质量综合指数计算。  相似文献   

10.
乌鲁木齐市大气污染时空分布规律研究   总被引:4,自引:1,他引:3  
李沫 《干旱环境监测》2009,23(4):223-226
为掌握乌鲁木齐市大气污染时空分布规律,利用近年乌鲁木齐市大气污染物的浓度最新资料,详尽分析了其空气质量的年际变化和空间分布特征。统计了2008年各污染物日、月变化规律。结果表明,近年乌鲁木齐市城区大气污染物质量浓度具有明显时空分布规律,即大气污染物质量浓度冬春季大于夏秋季,PM10和SO2浓度夜间大于白天。在空间分布上,PM10和SO2南部区域最高,中部次之,市区北部最轻,NO2则呈现出由北向南逐渐升高的分布特征。  相似文献   

11.
以乌鲁木齐市2008-2012年7个空气自动监测点位小时浓度数据为基础数据,利用ArcGIS 技术,分析了其NO2年变化、月变化、日变化、空间分布等污染特征。结果表明,NO2年均值为0.065~0.068 mg/m3,基本保持稳定;NO2呈明显的季节变化,冬季污染较重,春节、秋季次之,夏季空气质量相对较好;NO2呈现“单峰型”的日变化特征,夜间NO2明显高于白天;不同季节 NO2的空间分布特征不同,与交通、供暖、人口密度、地理位置密切相关;NO2分布与风速相关关系明显,而与气温、湿度的关系为非线性。  相似文献   

12.
对南通市2016年12月-2018年10月大气污染季节分布特征进行了分析。结果表明,南通市ρ(PM2.5)和ρ(水溶性离子)为冬、春季高,夏、秋季低。春夏秋冬四季ρ(水溶性离子)占ρ(PM2.5)百分比分别为68.2%,70.6%,64.5%和74.5%,其中二次离子SNA(NO3-、SO42-和NH4+)占ρ(PM2.5)的百分比分别为63.1%,67.0%,59.3%和66.8%;ρ(NO3-)/ρ(SO42-)表明,移动源已成为南通市春、秋、冬季的主要污染源,四季均存在不同程度的二次转化,且SO2的转化率均大于NO2,NO2冬季转化率最大、夏季最小,SO2夏季转化率最大、秋季最小。南通市NO2转化为硝酸盐的主要形式是气相均相反应,非均相反应和均相反应对SO2转化为硫酸盐的贡献差异不大。  相似文献   

13.
选取2015年1、4、7、10月(分别代表冬、春、夏、秋4季),应用CMAQv4.7.1和CMAQv5.1模式模拟长三角区域的空气质量,对比了NO2、SO2、O3、PM2.54个常规污染物的模拟结果,表明CMAQv5.1对NO2、SO2和PM2.5的模拟效果优于CMAQv4.7.1,而CMAQv4.7.1的O3模拟效果优于CMAQv5.1;CMAQv5.1的NO2模拟值更接近地面观测值,比起不同版本的化学机制对NO2模拟效果的影响,NO2的模拟偏差受排放高估的影响更大;2个版本SO2的模拟值差距较小,且都与地面观测值之间差异较小;CMAQv5.1 PM2.5的模拟值比CMAQv4.7.1更接近观测值,气溶胶模块机制的更新(例如新增细分的PM2.5模式物种和部分二次有机气溶胶生成机制的改进等)对PM2.5模拟效果的改善显著;CMAQv5.1的O3模拟值比CMAQv4.7.1高,CMAQv5.1的O3模拟值在O3观测值的高值时段更接近观测值,而CMAQv4.7.1的O3模拟值在低值时段更接近观测值,CMAQv5.1在日最大8小时平均(MDA8)O3观测浓度超标日的O3模拟效果相比CMAQv4.7.1有一定程度的改善,但在非超标日模拟效果变差,CMAQv5.1的O3模拟效果总体相比CMAQv4.7.1并未得到有效提升。提出,未来针对低值时段和低值区域的O3模拟机制的改进将进一步提升O3模拟效果。  相似文献   

14.
Political and economical transition in the Central and Eastern Europe at the end of eighties significantly influenced all aspects of life as well as technological infrastructure. Collapse of outdated energy demanding industry and adoption of environmental legislation resulted in seeming improvements of urban environmental quality. Hand in hand with modernization the newly adopted regulations also helped to phase out low quality coal frequently used for domestic heating. However, at the same time, the number of vehicles registered in the city increased. The two processes interestingly acted as parallel but antagonistic forces. To interpret the trends in urban air quality of Prague, Czech capital, monthly averages of PM(10), SO(2), NO(2), NO, O(3) and CO concentrations from the national network of automated monitoring stations were analyzed together with long term trends in fuel consumption and number of vehicles registered in Prague within a period of 1992-2005. The results showed that concentrations of SO(2) (a pollutant strongly related to fossil fuel burning) dropped significantly during the period of concern. Similarly NO(X) and PM(10) concentrations decreased significantly in the first half of the nineties (as a result of solid fuel use drop), but remained rather stable or increased after 2000, presumably reflecting rapid increase of traffic density. In conclusion, infrastructural changes in early nineties had a strong positive effect on Prague air quality namely in the first half of the period studied, nevertheless, the current trend in concentrations of automotive exhaust related pollutants (such as PM(10), NO(X)) needs adoption of stricter measures.  相似文献   

15.
根据南通市2016和2017年冬季大气多参数站自动监测PM2.5数据和在线离子色谱分析仪Marga监测的PM2.5中水溶性离子数据,分析了南通市冬季PM2.5中水溶性离子污染特征。结果表明,南通市2016和2017年冬季,ρ(PM2.5)分别为58和54μg/m 3,均高出其年均值(14μg/m^3);ρ(水溶性离子)总占ρ(PM2.5)百分比分别为74.5%和74.3%;二次离子ρ(NO3^-、SO4^2-和NH4^+)占ρ(PM2.5)百分比分别为66.8%和66.6%;各水溶性离子占比大小依次为:NO3^-、SO4^2-、NH4^+、Cl^-、K^+、Na^+、Ca^2+、Mg^2+。对ρ(NO3^-)/ρ(SO 4^2-)分析表明,移动源已经成为南通市冬季的主要污染源,且呈逐年增强趋势。对氯氧化率和硫氧化率的分析表明,南通市冬季存在较明显的二次污染,SO2的转化程度大于NO2。除Na^+和Mg^2+外,其他离子与PM2.5均呈显著相关性,NO3^-、SO4^2-与NH4^+之间的相关系数最高,Cl^-与除Na^+外的所有阳离子均呈显著相关性。  相似文献   

16.
Emissions of NOx and SO2 were monitored in the presence of ammonia liquor in a 0.09 m2 and 2 m high stainless-steel fluidized-bed combustor. Experiments were carried out at 2 m/s fluidizing velocity, 40% excess air, and 870 °C bed temperature. Ammonia liquor with 7% ammonia by weight was injected into the freeboard of the combustor 52 cm above the distributor through a water-cooled injector. A 65 : 34 primary/secondary air ratio was maintained throughout the investigation. Approximately 70% of NO and 20% of SO2 was reduced at an NH3/NO molar ratio of 2 : 1, respectively. However, a higher reduction in SO2 emissions (62%) was achieved at a very high NH3/NO molar ratio of 7 : 1. These experiments showed that ammonia addition did have a significant effect in SO2 reduction if injected in an excess amount. The injection of ammonia liquor combined with staged combustion was found to be very effective in reducing NOx emissions. A reduction of about 50% was achieved at an NH3/NO molar ratio of 0.6 : 1 which is also coupled with a very low level of ammonia in the flue.  相似文献   

17.
A combined NO2-SO2 Radiello radial-type diffusive sampler was validated under controlled laboratory conditions and compared with NO2-SO2 results of 3 other type of samplers in a field comparison at two locations Ghent-Mariakerke and Borgerhout in Flanders. Laboratory exposures at different temperatures (-5, 10 and 30 degrees C) and relative humidities (0, 50 and 80% RH) in combination with varying concentration levels and exposure times were carried out, with a focus on extreme conditions. Concentration level and exposure time were changed together following suppliers linear working range of samplers and assuring absolute amounts of compounds on the sampler corresponding to those of environmental levels. The average uptake rate for NO2 for 24 hour exposures at 10 degrees C and 50% RH and tested concentration levels (+/-73, 146 and 293 ppb NO2) was 0.076 +/- 0.011 ng ppb(-1) min(-1). Uptake rates during all experiments were lower than the uptake rate given in the instruction manual of the sampler. A significant effect of temperature and relative humidity on NO2 uptake rate was observed. The temperature effect from 10 to 30 degrees C corresponds to the temperature effect given by the supplier of the samplers. High relative humidity (70 to 80%) caused a strong non-reproducible decrease of uptake rate for NO2 at 24 hour experiments but this effect was not observed at longer exposures except for the tests at -5 degrees C. At the tested temperature below zero in combination with high relative humidity the sampler showed anomalous behaviour for NO2. The possible effect of concentration level and exposure time for NO2 needs further research. The average uptake rate for SO2 calculated from all exposures is 0.478 +/- 0.075 ng of sulfate ion each ppb min of SO2 and accords to suppliers uptake rate. No clear effects of temperature, relative humidity or concentration level/exposure time on the uptake rate for SO2 were found, partly due to the large scatter of results. Although NO2 accuracy of Radiello samplers was better during field campaigns than during laboratory validation, IVL and OGAWA samplers gave better results for NO2. In the field, IVL samplers showed best agreement with the continuous analyzers for both NO2 and SO2.  相似文献   

18.
The effect of fireworks on air quality was assessed from the ambient concentrations of various air pollutants (SO2, NO2, PM10 and TSP) during Diwali festival in Hisar city (India), in November 1999. The extensive use of fireworks was found to be related to short-term variation in air quality. During the festival the concentration of SO2 was observed to be increased approximately 10-fold at few sites, whereas the concentrations of NO2, PM10 and TSP increased 2-3 times, compared to the data collected on a typical winter day in December 1999. The maximum NO2 concentration was observed a day after the festival. The diurnal pattern of the above pollutants showed a slight increase in the night. The levels of these pollutants observed during Diwali were found to be moderately high, which can be associated with serious health impacts.  相似文献   

19.
Daily measurements of sulfate, nitrate and chloride in PM(10) have been made at three geographically separated UK sites over a three year period. Chloride shows a clear seasonal pattern with highest concentrations in winter, whilst sulfate and nitrate both show highest concentrations in the spring, apparently related to weather patterns. Spatial variability of both sulfate and nitrate is low in comparison to temporal variations, with high correlations of both species between all three sites, London (North Kensington), Harwell and Belfast, despite a geographic separation of 510 km. Both SO/SO(2) and NO/NO(x) ratios are considerably higher in summer than winter, reflecting a greater oxidising capacity of the atmosphere. SO(4)(2-)/NO(3)(-) ratios are higher in summer than winter, suggesting that aqueous phase oxidation of SO(2), expected to be most important in the winter months is not appreciably influencing production of sulfate aerosol, although greater dissociation of ammonium nitrate in summer may also play a role. Regression of concentrations at London, North Kensington with those from the proximate rural site of Harwell is interpreted as showing a similar effect of regional transport at the two sites and a small influence of local formation in the urban atmosphere or primary emissions, averaging 0.46 microg m(-3) of nitrate and 0.22 microg m(-3) of sulfate.  相似文献   

20.
Al, Cd, Cr, Cu, Fe, Mn, Pb, Zn, NH4+, Mg2+, Ca2+, Na+, K+, Cl-, NO3- and SO4(2-), along with pH were determined in wet and dry deposition samples collected at Al-Hashimya, Jordan. Mean trace metal concentrations were similar or less than those reported for other urban regions worldwide, while concentrations of Ca2+ and SO4(2-) were the highest. The high Ca2+ concentrations were attributed to the calcareous nature of the local soil and to the influence of the Saharan dust, while the high concentrations of SO4(2-) were attributed to the influence of anthropogenic sources and Saharan dust soil. Except for SO4(2-), NO3-, and Ca2+, dry deposition fluxes of measured metals and ions were higher than their corresponding wet deposition fluxes. The high annual average pH values recorded for wet and dry deposition samples were attributed to the neutralization of acidity by alkaline species. Cd, Cr, Cu, Pb, Zn, NO3- and SO4(2-) were enriched in wet and dry deposition samples relative to crustal material, and a significant anthropogenic contribution to these elements and ions is tentatively suggested. Finally, the possible sources and the main factors affecting the concentrations of the measured species are discussed.  相似文献   

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