大气与环境光学学报 ›› 2009, Vol. 4 ›› Issue (4): 256-265.

• 环境光学 • 上一篇    下一篇

奥运期间北京及周边地区霾天空气质量监测

陈良富 陶金花 王子峰 李莘莘 韩冬 张莹 余超 苏林   

  1. 1 中国科学院遥感应用研究所遥感科学国家重点实验室,北京 100101; 
    2 中国科学院大气物理研究所大气边界层物理和大气化学国家重点实验室,北京 100029; 
    3 中国科学院研究生院,北京 100049
  • 收稿日期:2009-05-03 修回日期:2009-05-06 出版日期:2009-07-28 发布日期:2009-07-24
  • 作者简介:陈良富 男,研究员,理学博士,博士生导师。1999年毕业于北京大学留校任教; 2001年来遥感所工作至今,其中2001年和2004年两次在法国国家科学中心做访问学者。近几年来先后承担2007和2008年中科院知识创新工程重要方向项目“北京及周边地区大气污染卫星遥感观测”和“华北区域大气环境质量的卫星监测”,目前正承担863资环领域重大项目“多源卫星遥感大气污染综合监测技术”,中科院项目群“地表关键参数遥感反演与数据同化系统研究”,发表学术论文百余篇。
  • 基金资助:

    中国科学院知识创新工程重要方向项目“华北区域大气环境质量的卫星监测”,中国科学院知识创新工程重大项目“区域环境污染立体监测技术及应用”(kzcx1-yw-06-01)和863计划重大项目“多源卫星遥感大气污染综合监测技术”(2006AA06A303)。

Monitoring of Air Quality During Haze Days in Beijing and its Surround Area During Olympic Game

CHEN Liang-Fu, DAO Jin-Hua, WANG Zi-Feng, LI Shen-Shen, HAN Dong, ZHANG Ying, YU Chao, SU Lin   

  1. 1 State Key Laboratory of Remote Sensing Science, Jointly Sponsored by the Institute of Remote Sensing Applications of Chinese Academy of Sciences and Beijing Normal University, Beijing 100101; 
    2 State Key Laboratory of Atmospheric Boundary Layer Physics and Atmospheric Chemistry, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029; 
    3 Graduation University of Chinese Academy of Sciences, Beijing 100049
  • Received:2009-05-03 Revised:2009-05-06 Published:2009-07-28 Online:2009-07-24

摘要:

北京的空气质量尤其是夏天经常出现的霾天污染状况,是奥运期间全世界共同关注的问题。2008年8月奥运期间中国科学院开展北京及周边地区奥运大气环境监测工作,具体包括地面连续点监测、地基监测和卫星遥感监测等不同监测形式。卫星监测可以获得霾天大区域分布的范围和光学厚度状况;遥感所超级站监测结果奥运期间北京及周边地区霾天的平均水汽含量为68.84%,只比非霾天的64.61%高4.23%。地基监测结果还表明:霾天光学厚度大多在1.0以上,能见度基本在5km左右; 8月非霾天可吸入颗粒物浓度PM2.5和PM10浓度分别为29.58?g/m3和76.05?g/m3,但霾天的PM2.5和PM10浓度则分别为68.08 g/m3和178.81 g/m3。从NO2对流层柱浓度监测结果表明,北京市城区仍然是NO2主要排放源,和天津、唐山,以及河北,山东等地部分地区共同构成NO2对流层柱浓度高值区。根据监测结果分析和模式风廓线后向轨迹数据等分析,北京霾天是在充足的水汽和稳定的大气环境条件下,可溶性细粒子经过吸湿增长后促使能见度急剧下降而成。如超级站的监测结果表明PM10的质量消光截面在空气相对湿度达到95%时有一个迅速增大的过程。

关键词: 北京奥运; 霾天; 空气质量

Abstract:

A world-wide attention has been paid to the air quality during the Beijing Olympic game, especially the air pollution during the haze days. In order to monitor the air quality during Olympic game, a project of Knowledge Innovation Program of Chinese Academy of Sciences, named as ‘Union Action Plan for Air Quality Monitoring and Forecasting during Olympic Game in Beijing and its surround Area’, was carried out in Beijing in 2008. Different techniques have been used, including the ground-based in-situ measurements, ground-based remote sensing and satellite measurements. The results demonstrated that the haze distribution on a regional scale can be derived from satellite measurements, and the relative humidity of 68.84% during the haze days in Beijing is only 4.23% larger than that during the non-haze days. Measurements from the super station at the institute of Remote Sensing Applications (IRSA) revealed that the visibilities were about 5 km during the haze days, and the haze aerosol optical depths were mostly more than 1.0 during last August. The ground-based measurements from Beijing and its surrounding stations show that the averaged PM2.5 and PM10 mass densities were 68.08 ?g/m3 and 178.81 ?g/m3 during the haze days respectively, while the corresponding values are 29.58 ?g/m3 and 76.05 ?g/m3 during the non-haze days. The measured total column densities of NO2 are far below the national standard, however, the space-borne observation by OMI/Aura showed high values in several areas in North China, including Beijing, Tianjin, Tangshan and some regions located in Shandong, Hebei, Shanxi and Henan provinces. Further analysis to the monitoring data and the backward track trajectory of wind profile indicated that the formation of haze in Beijing is mostly resulted from the wet growth of fine solution particulates under the stable atmospheric conditions with a plenty of water vapor, consequently leading to the rapid decrease of the visibility. As an evidence, a rapid increase of the PM10 mass extinction across section was noticed that when the relative humidity is up to 95% from the measurements at the super station.

Key words: Beijing Olympic game; haze; air quality

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