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北京夏冬季霾天气下气溶胶水溶性离子粒径分布特征 被引量:47

Characteristics of Mass Size Distributions of Water-Soluble Inorganic Ions During Summer and Winter Haze Days of Beijing
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摘要 为研究北京夏、冬季霾粒子中水溶性离子的粒径谱分布,并进一步分析其来源及形成机制,于2009年夏季和冬季利用惯性撞击式8级采样器(Andersen)和石英微量振荡天平(TEOM)对北京城区大气气溶胶分别进行了为期2周的连续采样和监测,并用离子色谱(IC)对气溶胶中的水溶性离子进行了分析.结果表明,夏季霾天PM10和PM2.5的质量浓度分别为(245.5±8.4)μg.m-3和(120.2±2.0)μg.m-3,冬季霾天对应的数值分别为(384.2±30.2)μg.m-3和(252.7±47.1)μg.m-3,无论夏季还是冬季,霾天大气细粒子污染均十分严重.细粒子中总水溶性离子(TWSS)的浓度霾天远高于对照天,其中霾天浓度上升较快的是SO24-、NO3-和NH4+,二次无机离子对霾天气的形成过程扮演重要作用.除NO3-外,其余7种水溶性离子夏、冬季霾天粒径谱分布一致,即,SO24-、NH4+主要分布于PM1.0以下的细粒子模态,Mg2+、Ca2+主要分布于PM2.5以上的粗粒子模态,Na+、Cl-和K+呈双模态分布;夏季霾天NO3-呈双模态分布,而冬季则主要分布于细粒子中.夏季霾天SO24-的平均质量中值粒径(MMAD)为0.64μm,SO24-主要来自远程SO2的云内反应,并且SO2表观转化率(SOR)高于对照天,使得霾天光化学反应生成的细粒子远远高于对照天气过程;冬季霾天SO24-的MMAD增至0.89μm,冬季因局地SO2排放并被非均相化学反应过程氧化为SO24-亦为北京大气细粒子的重要来源.夏、冬季霾天NO3-的MMAD分别为2.85μm和0.80μm,受到温度的影响,NO3-夏、冬季节分别以硝酸钙和硝酸铵的形式存在于粗、细粒子中. To investigate the size distribution characteristics of water soluble inorganic ions in haze days,the particle samples were collected by two Andersen cascade impactors in Beijing during summer and winter time and each sampling period lasted two weeks.On-line measurement of PM10 and PM2.5 using TEOM were also conducted at the same time.Sources and formation mechanism of water soluble inorganic ions were analyzed based on their size distributions.The results showed that average concentrations of PM10 and PM2.5 were(245.5±8.4)μg·m-3 and(120.2±2.0)μg·m-3 during summer haze days(SHD),and were(384.2±30.2) μg·m-3and(252.7±47.1) μg·m-3 during winter haze days(WHD),which suggested fine particles predominated haze pollution episode in both seasons.Total water-soluble inorganic ions concentrations were higher in haze days than those in non-haze days,especially in fine particles.Furthermore,concentrations of secondary inorganic ions(SO2-4,NO-3 and NH+4) increased quicker than other inorganic ions in fine particles during haze days,indicating secondary inorganic ions played an important role in the formation of haze pollution.Similar size distributions were found for all Sinorganic water soluble ions except for NO-3,during SHD and WHD.SO2-4 and NH+4 dominated in the fine mode(PM1.0) while Mg2+ and Ca2+ accumulated in coarse fraction,Na+,Cl-and K+ showed a bimodal distribution.For NO-3,however,it showed a bimodal distribution during SHD and a unimodal distribution dominated in the fine fraction was found during WHD.The average mass median aerodynamic diameter(MMAD) of SO2-4 was 0.64 μm in SHD,which suggested the formation of SO2-4 was mainly attributed to in-cloud processes.Furthermore,a higher apparent conversion rate of sulfur dioxide(SOR) was found in SHD,indicating more fine particles were produced by photochemical reaction in haze days than that in non-haze days.The MMAD of SO2-4 increased to 0.89 μm in WHD,local emission of SO2and the subsequently heteroge
出处 《环境科学》 EI CAS CSCD 北大核心 2013年第4期1236-1244,共9页 Environmental Science
基金 国家自然科学基金创新研究群体科学基金项目(41021004) 北京市科技计划公益应用类项目(D09040903670902)
关键词 气溶胶 水溶性离子 二次无机离子 质量浓度谱分布 霾天 aerosol water-soluble inorganic ions secondary inorganic ions mass size distribution haze days
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