成都市温江区PM2.5中有机和无机含硫化合物的分布特征
Distribution of organic and inorganic sulfur compounds in PM2.5 aerosols in Wenjiang District, Chengdu
-
摘要: 本研究在四川农业大学成都校区设立采样点,分别于春、夏、秋、冬的四季代表时间段采集PM2.5样品.在实验室应用电感耦合等离子体原子发射光谱仪(inductively coupled plasma-atomic emission spectroscopy,ICP-AES)测定样本中硫的总量;同时,利用离子色谱测定细粒子中硫酸盐的含量,探讨大气PM2.5中含硫化合物的季节变化,气象因子以及污染天气对含硫化合物的影响.研究表明,大气细颗粒中总硫、有机硫、硫酸根的年浓度值分别为5.41±3.61、1.46±1.54、11.85±7.23 μg·m-3.有机硫占总硫的比值春季为15.6%±10.2%,夏季为27.1%±14.0%,秋季为27.5%±21.7%,冬季为22.4%±13.3%.有机硫占总硫的平均比值夏、秋两季略高于春、冬两季,说明温暖的气候有利于气溶胶中硫酸盐转化为有机硫.冬季污染天气下有机硫/总硫的比值为28.2%±12.4%,明显高于非污染天气下有机硫/总硫的平均比值14.2%±10.9%.硫酸盐和有机物在大气颗粒物中的汇聚,有机和无机污染物浓度同时增多,可促使PM2.5中有机硫化合物的形成.Abstract: Samples of seasonal 24 h PM2.5 aerosols were collected on the Chengdu Campus of Sichuan Agricultural University from Jane 2015 toApril 2016. Concentrations of total sulfur (TS) in aerosols were measured by an Inductively Coupled Plasma-Atomic Emission Spectrometer (ICP-AES),while sulfate was measured by Ion Chromatography. Seasonal variations of sulfur compounds, influences of meteorological parameters, and distribution of sulfur compounds under polluted and non-polluted weather were analyzed. The results show that the annual levels of TS, organic sulfur (OS) and SO42- were 5.41±3.61, 1.46±1.54 and 11.85±7.23 μg·m-3 respectively while OS/TS ratios are 15.6%±10.2%, 27.1%±14.0%, 27.5%±21.7% and 22.4%±13.3% in spring, summer, autumn and winter respectively. The OS/TS ratios are higher in summer and autumn, yet lower in spring and winter, suggesting that warm climate promoting OS formation. Moreover, the average OS/TS ratio 28.2%±12.4% on the polluted days, while 14.2%±10.9% on the non-polluted days in winter. The ratios are significantly higher on the polluted days than those on the non-polluted days, indicating that instantaneous increases and congregation of organic compounds and sulfate on the polluted days promoted the generation of OS in PM2.5 aerosols.
-
Key words:
- PM2.5 /
- sulfate /
- total sulfur /
- organic sulfur /
- Chengdu Wenjiang
-
-
[1] 周易,李黎,刘子芳,邓仕槐.大气硫酸酯研究进展[J].生态毒理学报,2016,11(2):69-79. ZHOU Y, LI L, LIU Z F, et al. Review of atmospheric organosulfate studies[J]. Asian Journal of Ecotoxicology, 2016, 11(2):69-79(in Chinese).
[2] GÍMEZ-GONZÁLEZ Y, SURRATT J D, CUYCKENS F, et al. Characterization of organosulfates from the photooxidation of isoprene and unsaturated fatty acids in ambient aerosol using liquid chromatography/(-) electrospray ionization mass spectrometry[J]. Journal of Mass Spectrom, 2008, 43(3):371-382. [3] SURRATT J D, GÍMEZ-GONZÁLEZ Y, CHAN A. W H, et al. Organosulfate formation in biogenic secondary organic aerosol[J]. Journal of Physical Chemistry A 2008, 112:8345-8378. [4] RUSSELL L M, TAKAHAMA S, LIU S, et al. Oxygenated fraction and mass of organic aerosol from direct emission and atmospheric processing measured on the R/V Ronald Brown during TEXAQS/GoMACCS 2006[J]. Journal of Geophysical Research Atmospheres. 2009, 114(D7):58-70. [5] 栗欣,郭花捷,陈淑芬,等.北京市燕山地区大气颗粒物中NO3-和SO42-浓度变化规律及其与O3关系[J].环境科学,1995,16(5):57-60. LI X, GUO H J, CHEN S F, et al. Changes of NO3- and SO42- concentrations in atmospheric particulates and their relationship with O3 in Yanshan, Beijing[J]. Environmental Science, 1995, 16(5):57-60(in Chinese).
[6] TAO J, GAO J, ZHANG L, et al. PM2.5 pollution in a megacity of southwest China:Source apportionment and implication[J]. Atmospheric Chemistry & Physics, 2014, 14:8679-8699. [7] 陈源,谢绍东,罗彬.成都市大气细颗粒物组成和污染特征分析(2012-2013年)[J].环境科学学报,2016,36(6):1021-1031. CHEN Y, XIE S D, LUO B. Composition and pollution characteristics of fine particles in Chengdu from 2012 to 2013[J]. Acta Scientiae Circumstantiae, 2016, 36(6):1021-1031(in Chinese).
[8] 蒋燕,贺光艳,罗彬,等.成都平原大气颗粒物中无机水溶性离子污染特征[J].环境科学,2016,37(8):2863-2870. JIANG Y, HE G Y, LUO B, et al. Pollution characteristics of inorganic water-soluble ions in atmospheric particulate matter in Chengdu Plain[J]. Environmental Science, 2016, 37(8):2863-2870(in Chinese).
[9] 陈源,谢绍东,罗彬,等.重庆市主城区大气细颗粒物污染特征与来源解析[J].环境科学学报, 2017,37(7):2420-2430. CHEN Y, XIE S D, LUO B, et al. Pollution characterization and source apportionment of fine particles in urban Chongqing[J]. Acta Scientiae Circumstantiae, 2017, 37(7):2420-2430(in Chinese).
[10] WANG P, CAO J J, SHEN Z X, et al. Spatial and seasonal variations of PM2.5 mass and species during 2010 in Xi'an, China[J]. Science of the Total Environment, 2015, 508:477-487. [11] 刘保献,杨懂艳,张大伟,等.北京城区大气PM2.5主要化学组分构成研究[J].环境科学,2015, 26(7):2346-2352. LIU B X, YANG D Y, ZHANG D W. Chemical species of PM2.5 in the urban area of Beijing[J]. Environmental Science, 2015, 26(7):2346-2352(in Chinese).
[12] ZHOU J B, XING Z Y, DENG J J, et al. Characterizing and sourcing ambient PM2.5 over key emission regions in China I:Water-soluble ions and carbonaceous fractions[J]. Atmospheric Environment. 2016, 135:20-30. [13] CHEN W H, WANG X M, ZHOU S Z, et al. Chemical composition of PM2.5 and its impact on visibility in Guangzhou, Southern China[J]. Aerosol and Air Quality Research, 2016, 16:2349-2361. [14] ZHOU M, QIAO L P, ZHU S H, et al. Chemical characteristics of fine particles and their impact on visibility impairment in Shanghai based on a 1-year period observation[J]. Journal of Environmental Sciences, 2016, 48:151-160. [15] 曾建荣,包良满,龙时磊,等.结合XANES和IC技术测量大气颗粒物中硫的形态分布及其含量[J].核技术,2011,34(1):65-69. ZENG J R, BAO L M, LONG S L, et al. The distribution and content of sulfur in atmospheric particulates by XANES and IC[J]. Nuclear Technology. 2011, 34(1):65-69(in Chinese).
[16] SUN Y L, ZHUANG G S, TANG A H. Chemical characteristics of PM2.5 and PM10 in haze-fog episodes in Beijing[J]. Environmental Science & Technology, 2006, 40(10):3148-3155. [17] 王启元,曹军骥,甘小凤,等.成都市灰霾与正常天气下大气PM2.5的化学元素特征[J].环境化学,2010,29(4):644-648. WANG Q Y, CAO J J, GAN X F, et al. Characteristics of elements in PM2.5 during normal and haze period in Chengdu[J]. Chemical Chemistry. 2010, 29(4):644-648(in Chinese).
-
点击查看大图
计量
- 文章访问数: 1315
- HTML全文浏览数: 1229
- PDF下载数: 248
- 施引文献: 0
下载:
