中国环境科学
中國環境科學
중국배경과학
CHINA ENVIRONMENTAL SCIENCE
2010年
1期
12-17
,共6页
杨卫芬%银燕%魏玉香%陈魁
楊衛芬%銀燕%魏玉香%陳魁
양위분%은연%위옥향%진괴
南京%霾%大气细颗粒物(PM_(2.5))%元素%因子分析
南京%霾%大氣細顆粒物(PM_(2.5))%元素%因子分析
남경%매%대기세과립물(PM_(2.5))%원소%인자분석
Nanjing%haze%PM_(2.5)%elements%factor analysis
2007年6月13日至2008年5月29日期间,对南京大气中PM_(2.5)进行了连续采样,并利用电感耦合等离子体质谱分析法测定了PM_(2.5)中K、Al、Ca、Pb等30种元素的质量浓度,对比分析了这些元素在霾日与非霾日的污染特征.结果表明,PM_(2.5)污染水平较高,年质量浓度均值达103μg/m~3.霾日PM_(2.5)质量浓度水平是非霾日的2.35倍.春季霾日前后PM_(2.5)中元素变化特征不明显.秋冬季节霾日元素浓度基本大于非霾日.平均而言,整个采样期间Cu、Se、Hg、Bi等人为污染元素的富集因子均较高,且霾日明显大于非霾日.因子分析结果表明,南京市霾日PM_(2.5)主要来源于土壤尘、冶金化工尘、化石燃料燃烧、垃圾焚烧及建筑扬尘,贡献率依次为29.21%、20.15%、27.15%、7.09%和5.10%.
2007年6月13日至2008年5月29日期間,對南京大氣中PM_(2.5)進行瞭連續採樣,併利用電感耦閤等離子體質譜分析法測定瞭PM_(2.5)中K、Al、Ca、Pb等30種元素的質量濃度,對比分析瞭這些元素在霾日與非霾日的汙染特徵.結果錶明,PM_(2.5)汙染水平較高,年質量濃度均值達103μg/m~3.霾日PM_(2.5)質量濃度水平是非霾日的2.35倍.春季霾日前後PM_(2.5)中元素變化特徵不明顯.鞦鼕季節霾日元素濃度基本大于非霾日.平均而言,整箇採樣期間Cu、Se、Hg、Bi等人為汙染元素的富集因子均較高,且霾日明顯大于非霾日.因子分析結果錶明,南京市霾日PM_(2.5)主要來源于土壤塵、冶金化工塵、化石燃料燃燒、垃圾焚燒及建築颺塵,貢獻率依次為29.21%、20.15%、27.15%、7.09%和5.10%.
2007년6월13일지2008년5월29일기간,대남경대기중PM_(2.5)진행료련속채양,병이용전감우합등리자체질보분석법측정료PM_(2.5)중K、Al、Ca、Pb등30충원소적질량농도,대비분석료저사원소재매일여비매일적오염특정.결과표명,PM_(2.5)오염수평교고,년질량농도균치체103μg/m~3.매일PM_(2.5)질량농도수평시비매일적2.35배.춘계매일전후PM_(2.5)중원소변화특정불명현.추동계절매일원소농도기본대우비매일.평균이언,정개채양기간Cu、Se、Hg、Bi등인위오염원소적부집인자균교고,차매일명현대우비매일.인자분석결과표명,남경시매일PM_(2.5)주요래원우토양진、야금화공진、화석연료연소、랄급분소급건축양진,공헌솔의차위29.21%、20.15%、27.15%、7.09%화5.10%.
Fine particular matter (PM_(2.5)) was continuously sampled with a TEOM-1400a (tapered element oscillating microbalance)ambient particulate monitor (Rupprecht and Patashniek Corp.) in Nanjing from 13 June 2007 to 29 May 2008. Thirty metal elements, including K, Al, Ca and Pb etc., were determined using an inductive coupled plasma-mass spectrometry(ICP-MS), and characteristics of these components were analyzed and compared between hazy and non-hazy days. The annual mean concentration of PM_(2.5) in Nanjing was around 103μg/m~3, quite higher than that in clean cries, and that the PM_(2.5) concentration in hazy days was 1.35 fold higher than that in non-hazy days. It was also found that the concentration of metal elements in hazy days was higher than that in non-hazy days in autumn and winter, but there was no significant difference between hazy and non-hazy days in spring. Enrichment factor (EF) analysis for metal elements showed that metal components from anthropogenic origins (Cu, Se, Hg and Bi) were highly enriched in PM_(2.5),especially in hazy days. A source analysis flaker revealed that PM_(2.5) in hazy days in Nanjing mainly originated from soil dusts, metallurgic emissions, the combustion of fossil fuel, refuse incineration and emissions from construction industries, which contributed 29.21%,20.15%, 27.15%, 7.09% and 5.10%, respectively, to the total mass of PM_(2.5).
