Acta Scientiarum Naturalium Universitatis Pekinensis ›› 2021, Vol. 57 ›› Issue (3): 414-424.DOI: 10.13209/j.0479-8023.2021.021

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Meteorological and Pollution Characteristics of PM2.5 under Atmosphric Circulation Types in Autumn and Winter in Shijiazhuang

XIAO Teng1, LIN Tingkun2, YAN Yu1, WANG Xuesong1,†   

  1. 1. State Key Joint Laboratory of Environmental Simulation and Pollution Control, College of Environmental Sciences and Engineering, Peking University, Beijing 100871

    2. Guangdong Diankeyuan Energy Technology Co., Ltd., Guangzhou, 510080

  • Received:2020-04-05 Revised:2020-08-03 Online:2021-05-20 Published:2021-05-20
  • Contact: WANG Xuesong, E-mail: xswang(at)pku.edu.cn

石家庄市秋冬季大气环流型下的气象和PM2.5污染特征

肖腾1, 林廷坤2, 严宇1, 王雪松1,†   

  1. 1. 环境模拟与污染控制国家重点联合实验室, 北京大学环境科学与工程学院, 北京 100871 2. 广东电科院能源技术有限责任公司, 广州 510080
  • 通讯作者: 王雪松, E-mail: xswang(at)pku.edu.cn
  • 基金资助:
    国家重点研发计划(2018YFC0213204)资助

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Abstract:

According to the ground and vertical meteorological characteristics of atmospheric circulation types during the autumns and winters (Nov.?Feb.) of 2013?2018 in Shijiazhuang, 11 types of atmospheric circulation were classified into five categories. The correlation between each category and PM2.5 pollution was discussed by combining the transport trajectories and the air quality data. Among those categories, Category I (type NW and type N, accounting for 16% of days) was the best condition for air pollution diffusion, characterized by the dominant west or northwest winds near surface with steady direction and high speed, as well as high planetary boundary layer (PBL) height. Category II (type NE, accounting for 9%) and Category III (type E and type SE, accounting for 12%) were the second-best conditions, characterized by high wind speed. Category II was dominated by north wind and medium PBL height, while Category III was dominated by northeast wind and low PBL height. Category IV (type A, 37%) was unfavorable for air pollution diffusion, which was characterized by low-speed, near-surface winds and low PBL height. Category V (type UM, type C, type S, type SW, type W, 26%) was the worst condition, characterized by near-surface winds with low speed and variable directions, as well as low PBL height and intensive temperature inversion in lower atmosphere. The potential areas of sources contributing to PM2.5 pollution in Shijiazhuang under different circulation types varied with different transport trajectories. Concerning the correlation between the PM2.5 pollution in Shijiazhuang during the autumns and winters and the diffusive conditions of different circulative types, the PM2.5 pollution tended to occur (the frequency of pollution was from 78% to 96%, and the frequency of heavy pollution and above was more than 55%) when the region was controlled by Category V; the condition of the PM2.5 pollution tended to change slowly under Category IV, but the PM2.5 concentration was more likely to increase under the continuous Category IV days; the frequency of PM2.5 pollution was lowest under Category I.

Key words: atmospheric circulation type, PM2.5 pollution, meteorology, Shijiazhuang

摘要:

根据石家庄市2013—2018年秋冬季(当年11—12月和次年1—2月)11种大气环流型天气条件下的地面和垂直气象特征, 归纳出5类大气环流条件, 并结合气团传输轨迹和PM2.5浓度监测数据, 探讨大气环流条件与石家庄PM2.5污染的关系。在5类大气环流条件中, 第I类(NW型和N型, 天数占16%)的扩散条件最好, 以西风和西北风为主, 风向比较稳定, 风速大, 边界层高度高; 第II类(NE型, 天数占9%)和第III类(E型和SE型, 天数占12%)的扩散条件次好, 近地面风向分别以北风和东北风为主, 风速较大, 前者边界层高度中等, 后者边界层高度低; 第IV类(A型, 天数占37%)的扩散条件较差, 近地面风速较低, 同时边界层高度低; 第V类(UM型、C型、S型、SW型和W型, 天数占26%)的扩散条件最差, 近地面风速很小, 风向变化大, 边界层高度低, 低层大气逆温明显。不同大气环流条件下气团的传输路径存在差异, 对石家庄地区PM2.5污染产生潜在影响的区域随之不同。石家庄市秋冬季的PM2.5污染与不同环流型的扩散条件密切关联, 第V类大气环流条件下最易发生PM2.5污染, 污染发生频率在78%~96%之间, 重度及以上级别污染发生频率均在55%以上; 第IV类大气环流条件下的污染状况变化相对缓慢, 但连续的第IV类大气环流天气多带来PM2.5污染持续累积; 第I类大气环流条件下发生污染的频率最低。

关键词: 大气环流型, PM2.5污染, 气象, 石家庄

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