机构地区:[1]北京林业大学环境科学与工程学院,北京100083
出 处:《环境科学研究》2021年第11期2579-2587,共9页Research of Environmental Sciences
基 金:国家自然科学基金项目(No.42077454)。
摘 要:大气细颗粒物中有机物含量占20%~80%,部分有机物除具有较强的毒性外,还具有较强吸湿性,影响大气环境质量.因此,为充分研究细颗粒物中一元羧酸的来源及其对大气环境的影响,于2020年在秦皇岛市区(海港区站点)和工业园区(昌黎站点)采集细颗粒物,经预处理的样品用三氟化硼-甲醇(BF 3-CH 3OH)衍生化试剂衍生后,采用气相色谱质谱联用(GC-MS)的方法对PM_(2.5)中的一元羧酸进行测定,一共检测到17种一元羧酸(碳数分布在10~24之间).结果表明:①PM_(2.5)浓度的季节性变化呈冬季>秋季>春季>夏季的特征,且工业园区(昌黎站点)PM_(2.5)浓度为21.40~112.41μg/m^(3),高于市区(海港区站点为9.01~104.88μg/m^(3)).②两个采样点一元羧酸浓度的季节性变化特征并不明显,海港区站点、昌黎站点一元羧酸的年均浓度分别为873.91、895.22 ng m^(3).③两个站点碳数小于22的一元羧酸浓度均表现出明显的偶数碳优势,海港区站点、昌黎站点浓度最高的一元羧酸均为棕榈酸(C_(16)),年均浓度分别为512.86、514.34 ng m^(3);其次是硬脂酸(C_(18)),年均浓度分别为270.06、268.17 ng m^(3).两站点各季节C_(16)和C_(18)分别占一元羧酸总浓度的48.83%~66.40%和22.81%~36.96%.一元羧酸的碳优势指数(CPI)与植物贡献的一元羧酸(碳数≥22)总浓度呈负相关.④根据碳数分布规律、∑C_(≥22)∑C_(<22)(碳数大于等于22的一元羧酸与碳数小于22的一元羧酸浓度的比值)、C_(18)C_(16)(硬脂酸和棕榈酸浓度的比值)、CPI值以及C_(18)∶1 C_(18)(油酸与硬脂酸浓度的比值)来初步判断一元羧酸的来源及其对大气环境的影响,发现秦皇岛市两个站点夏季大气氧化性最强(市区大气氧化性较工业园区强),春、秋两季大气氧化性较弱,尤其是工业园区春季大气氧化性最弱,其一元羧酸主要来自本地源;燃煤、机动车尾气排放、道路扬尘以及肉类烹饪是大气PM_(2.5)中一元羧酸The content of organic matter in atmospheric fine particles is about 20%-80%.In addition to strong toxicity,some organic matter also has strong hygroscopicity,which affects the quality of the atmospheric environment.In order to fully understand the source of monocarboxylic acids in fine particles and their impact on the atmospheric environment,fine particles were collected in Qinhuangdao urban area(seaport site)and industrial park(Changli site)in 2020.After the pretreated samples were derivatized with boron trifluoride-methanol(BF_(3)-CH_(3)OH)derivatization reagent,the monocarboxylic acid in PM_(2.5) was determined by gas chromatography-mass spectrometry(GC-MS).A total of 17 monocarboxylic acids(C_(10)-C_(24))were detected.The results showed that:(1)The seasonal change of PM_(2.5) concentration showed the characteristics of winter>autumn>spring>summer,and the PM_(2.5) concentration of in the industrial park(Changli site)was 21.40-112.41μg/m^(3),which was higher than the concentration in the urban area(seaport site)(9.01-104.88μg/m^(3)).(2)The seasonal variation of the concentration of monocarboxylic acids at the two sampling points was not obvious.The average annual concentration of monocarboxylic acids at the seaport site and Changli site was 873.91 and 895.22 ng m^(3),respectively.(3)The concentrations of monocarboxylic acids with carbon numbers less than 22 at the two sites showed obvious even-numbered carbon advantages.The monocarboxylic acid with the highest concentration at the seaport site and the Changli site was palmitic acid(C_(16)),with annual average concentrations of 512.86 and 514.34 ng m^(3);followed by stearic acid(C_(18)),with annual average concentrations of 270.06 and 268.17 ng m^(3),respectively.C_(16)and C_(18)accounted for about 60%and 30%of the annual average concentration of monocarboxylic acids,respectively.The carbon dominance index(CPI)of acid was negatively correlated with the total amount of monocarboxylic acids(carbon number_(≥22))contributed by plants.(4)The source of monocarbo
关 键 词:PM_(2.5) 一元羧酸 气相色谱质谱 来源分析
分 类 号:X513[环境科学与工程—环境工程]
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