中国环境科学
中國環境科學
중국배경과학
CHINA ENVIRONMENTAL SCIENCE
2014年
10期
2449-2457
,共9页
王扶潘%朱乔%冯凝%刘芮伶%黄晓锋%何凌燕
王扶潘%硃喬%馮凝%劉芮伶%黃曉鋒%何凌燕
왕부반%주교%풍응%류예령%황효봉%하릉연
气溶胶生成系数法%产率法%芳香烃%异戊二烯%二次有机气溶胶
氣溶膠生成繫數法%產率法%芳香烴%異戊二烯%二次有機氣溶膠
기용효생성계수법%산솔법%방향경%이무이희%이차유궤기용효
FAC method%Yields method%aromatics%isoprene%secondary organic aerosol
使用气溶胶生成系数法和产率法,对深圳四季5种芳香烃和异戊二烯所生成的二次有机气溶胶(SOA)量分季节计算并比较得出:四季中除春季外,其余三季产率法计算得到的 SOA 量均高于生成系数法计算的结果,四季所生成 SOA 的平均值分别为(2.48±2.02)μg/m3和(2.10±1.21)μg/m3.2种方法计算结果均为夏季 SOA 的生成量最大,秋季和冬季次之,春季最小.生成系数法计算得出人为源和天然源的贡献分别为96%和4%,而产率法得到两种源的贡献分别为86%和14%.将生成系数法和产率法计算得到的夏季SOA值与实测值进行比较,发现计算值均低于实测值,分别占实测值的21%和31%.最后计算芳香烃和异戊二烯的自由基反应速率得出,与OH自由基反应是其生成SOA最主要的途径,比例为75%,与NO3自由基和O3的反应比例分别为22%和3%.在生成SOA速度上,苯乙烯的速度最快,苯的速度最慢.
使用氣溶膠生成繫數法和產率法,對深圳四季5種芳香烴和異戊二烯所生成的二次有機氣溶膠(SOA)量分季節計算併比較得齣:四季中除春季外,其餘三季產率法計算得到的 SOA 量均高于生成繫數法計算的結果,四季所生成 SOA 的平均值分彆為(2.48±2.02)μg/m3和(2.10±1.21)μg/m3.2種方法計算結果均為夏季 SOA 的生成量最大,鞦季和鼕季次之,春季最小.生成繫數法計算得齣人為源和天然源的貢獻分彆為96%和4%,而產率法得到兩種源的貢獻分彆為86%和14%.將生成繫數法和產率法計算得到的夏季SOA值與實測值進行比較,髮現計算值均低于實測值,分彆佔實測值的21%和31%.最後計算芳香烴和異戊二烯的自由基反應速率得齣,與OH自由基反應是其生成SOA最主要的途徑,比例為75%,與NO3自由基和O3的反應比例分彆為22%和3%.在生成SOA速度上,苯乙烯的速度最快,苯的速度最慢.
사용기용효생성계수법화산솔법,대심수사계5충방향경화이무이희소생성적이차유궤기용효(SOA)량분계절계산병비교득출:사계중제춘계외,기여삼계산솔법계산득도적 SOA 량균고우생성계수법계산적결과,사계소생성 SOA 적평균치분별위(2.48±2.02)μg/m3화(2.10±1.21)μg/m3.2충방법계산결과균위하계 SOA 적생성량최대,추계화동계차지,춘계최소.생성계수법계산득출인위원화천연원적공헌분별위96%화4%,이산솔법득도량충원적공헌분별위86%화14%.장생성계수법화산솔법계산득도적하계SOA치여실측치진행비교,발현계산치균저우실측치,분별점실측치적21%화31%.최후계산방향경화이무이희적자유기반응속솔득출,여OH자유기반응시기생성SOA최주요적도경,비례위75%,여NO3자유기화O3적반응비례분별위22%화3%.재생성SOA속도상,분을희적속도최쾌,분적속도최만.
Both the fractional aerosol coefficients (FAC) and yields (Y) methods was wsed to calculate the secondary organic aerosol (SOA) production from atmospheric volatile aromatics and isoprene in ShenZhen. Throughant the year results from the Yields method were all larger than the results by the FAC method except in spring, and the total average SOA production values were (2.48±2.02) μg/m3 and (2.10±1.21) μg/m3. The calculated SOA value in the summer was the largest, followed by in the autumn, winter, and spring. By the FAC method, the contribution from anthropogenic sources was 96%, while the contribution from natural sources was 4%. By the Yields method, contributions of anthropogenic and natural sources were 86%and 14%, respectively. During summer time, the calculated SOA values by the FAC and Yields methods only accounted for 21% and 31% of the measured SOA value. The OH radical reaction activities of aromatic hydrocarbons and isoprene were also calculated, and the results showed that the aromatic hydrocarbons' reaction with OH radicals was the main source of SOA with a percentage of 75%, while the percentages of NO3 and O3 were 22%and 3%. In terms of generating speed of SOA, styrene was found to have the fastest speed, while the speed of benzene was the slowest.
