JU Shi-yao,ZHANG Xiao-ling,FAN Guang-zhou,et al.Analysis of Meteorological Conditions for a Continuous Heavy Pollution Process in Beijing[J].Journal of Chengdu University of Information Technology,2017,(04):419-425.[doi:10.16836/j.cnki.jcuit.2017.04.012]
北京地区一次持续重污染过程的气象成因分析
- Title:
- Analysis of Meteorological Conditions for a Continuous Heavy Pollution Process in Beijing
- 文章编号:
- 2096-1618(2017)04-0419-07
- 关键词:
- 大气物理学与大气环境; 大气污染; 持续重污染; 爆发性增长; 气象条件
- Keywords:
- atmospheric physics and atmospheric environment; atmospheric pollutants; continuous heavy pollution; explosive growth; meteorological conditions
- 分类号:
- P401
- 文献标志码:
- A
- 摘要:
- 为揭示北京一次持续重污染过程的气象成因,利用北京地区常规及特种气象资料、风云二号C卫星数据及PM2.5观测资料,分析了高低空环流形势、局地气象要素的动力和热力结构对其的影响。结果表明:过程期间,高空以西北或偏西气流为主,地面受高压后部弱气压场和低压辐合区控制; 地面呈现小风或静风的状态; 850 hPa以下相对湿度维持在80%以上; 存在多层逆温且维持时间长; 不利于污染物扩散的气象条件是PM2.5前期积累的主因,而局地环流所形成的风场辐合线北抬是PM2.5浓度在后期短时内爆发性增长的关键因素。
- Abstract:
- In order to reveal the meteorological conditionsfor a continuous heavy pollution process in Beijing, the observation data from regular and special meteorological stations, FY-2C satellite and PM2.5 concentration data were used to analyzes the upper and lower circulation pattern and the influence of the dynamic and thermal structure produced by local meteorological elements.The results showed that during the process of heavy pollution,northwest or west flow was dominated on the high latitude and the ground was controlled by the low atmospheric pressure field of the rear high pressure and the low pressure convergence zone.Moreover,the ground showed a state of light wind or calm,below 850 hPa, the relative humidity maintained at above 80%, and there was multiple-layer inversion and it had maintained for a long time.The unfavorable meteorologic condition of pollutant diffusion is the principal cause, the accumulation of PM2.5 concentration at the earlier stage of the process, influenced by the Beijing topography and local circulation.The surface convergence line formed by the surface flow field in Beijing area elevated northward, which is the key factor for the explosive growth of PM2.5 concentration in a short time in Beijing area.
参考文献/References:
[1] 张小曳,孙俊英,王亚强,等.我国雾-霾成因及其治理的思考[J].科学通报,2013,58(13):1178-1187.
[2] Giorgi F,Meleux F.Modelling the regional effects of climate change on air quality[J].Comptes Rendus Geoscience,2007,339(11):721-733.
[3] 谈荣华,张元茂,郑叶飞,等.上海市城区典型居民住宅区PM2.5的污染状况分析[J].环境与职业医学,2004,21(3):226-229.
[4] 吴兑.关于霾与雾的区别和灰霾天气预警的讨论[J].气象,2005,31(4):3-7.
[5] Comrie A C.An All-Season Synoptic Climatology of Air Pollution in the US-Mexico Border Region[J].The Professional Geographer,1996,48(3):237-251.
[6] Elbir T,Muezzinoglu A.Estimation of emission strengths of primary air pollutants in the city of Izmir,Turkey[J].Atmospheric Environment,2004,38(13):1851-1857.
[7] Greene J S,Kalkstein L S,Ye H,et al.Relationships between synoptic climatology and atmospheric pollution at 4 US cities [J].Theoretical and Applied Climatology,1999,62(3-4):163-174.
[8] Flocas H,Kelessis A,Helmis C,et al.Synoptic and local scale atmospheric circulation associated with air pollution episodes in an urban Mediterranean area[J].Theoretical and Applied Climatology,2009,95(3-4):265-277.
[9] 陈训来,冯业荣,王安宇,等.珠江三角洲城市群灰霾天气主要污染物的数值研究[J].中山大学学报(自然科学版),2007,46(4):103-107.
[10] 王璟,伏晴艳,王汉峥,等.上海市一次罕见的连续11天空气污染过程的特征及成因分析[J].气候与环境研究,2008,13(1):53-60.
[11] 樊文雁,胡波,王跃思,等.北京雾、霾天细粒子质量浓度垂直梯度变化的观测[J].气候与环境研究,2009,14(6):631-638.
[12] 苏福庆,杨明珍,钟继红,等.华北地区天气型对区域大气污染的影响[J].环境科学研究,2004,17(3):16-20.
[13] 赵秀娟,蒲维维,孟伟,等.北京地区秋季雾霾天PM2.5污染与气溶胶光学特征分析[J].环境科学,2013,34(2):416-423.
[14] 周丽,徐祥德,丁国安,等.北京地区气溶胶PM2.5粒子浓度的相关因子及其估算模型[J].气象学报,2003,61(6):761-768.
[15] 戴永立,陶俊,林泽健,等.2006~2009年我国超大城市霾天气特征及影响因子分析[J].环境科学,2013,34(8):2925-2932.
[16] Deng Z Z,Zhao C S,Ma N,et al.Size-resolution and bulk activation properties of aerosols in North China Plain:the importance of aerosols size distribution in the prediction of CNN number concentration[J].Atmosphere Chemistry and Physics,2011,11:3835-38646.
[17] Zhang Q,Meng J,Quan J,et al.Impact of aerosol composition on cloud condensation nuclei activity[J].Atmosphere Chemistry and Physics,2012,12:3783-3790.
[18] 苏福庆,高庆先,张志刚,等.北京边界层外来污染物输送通道[J].环境科学研究,2004,17(1):26-29.
[19] 苏福庆,任阵海,高庆先,等.北京及华北平原边界层大气中污染物的汇聚系统——边界层输送汇[J].环境科学研究,2004,17(1):21-25.
[20] 徐祥德,周丽,周秀骥,等.城市环境大气重污染过程周边源影响域[J].中国科学D辑:地球科学,2004,34(10):958-966.
[21] 刘伟东,江玉华,李炬,等.北京地区一次重污染天气气溶胶分布与传输特征研究[J].气候与环境研究,2010,15(2):152-160.
[22] Davis R E,Kalkstein L S.Using a spatial synoptic climatological classification to assess changes in atmospheric pollution concentrations[J].Physical Geography,1990,11(4):320–342.
[23] Cheng C S,Campbell M,Li Q,et al.A synoptic climatological approach to assess climatic impact on air quality in south-central Canada.Part I:Historical analysis[J].Water,Air,and Soil Pollution,2007,182(1-4):131-148.
[24] Cheng C S,Campbell M,Li Q,et al.A synoptic climatological approach to assess climatic impact on air quality in south-central Canada.Part II:Future estimates[J].Water,Air,and Soil Pollution,2007,182(1-4):117–130.
[25] Cheng S Y,Chen D S,Li J B,et al.The assessment of emission-source contributions to air quality by using a coupled MM5-ARPS-CMAQ modeling system:A case study in the Beijing metropolitan region,China[J].Environmental Modelling and Software,2007,22(11):1601–1616.
[26] 陈朝晖,程水源,苏福庆,等.北京地区一次重污染过程的大尺度天气型分析[J].环境科学研究,2007,20(2):99–105.
[27] 田伟,唐贵谦,王莉莉,等.北京秋季一次典型大气污染过程多站点分析[J].气候与环境研究,2013,18(5):595–606.
[28] 王莉莉,王跃思,王迎红,等.北京夏末秋初不同天气形势对大气污染物浓度的影响[J].中国环境科学,2010,30(7):924–930.
[29] 廖晓农,张小玲,王迎春,等.北京地区冬夏季持续性雾-霾发生的环境气象条件对比分析[J].环境科学,2014,35(6):2031-2044.
[30] 陈嫒,岑况,Nora S,等.北京市区大气气溶胶PM2污染特征及颗粒物溯源于追踪分析[J].现代地质,2010,24(2):345-354.
[31] 唐宜西,张小玲,熊亚军,等.北京一次持续霾天气过程气象特征分析[J].气象与环境学报,2013,29(5):l2-19.
[32] 夏恒霞.北京城区逆温气象特征及其对大气污染的影响[J].城市管理与科技,2004,6(2):63-68.
[33] 李梦,唐贵谦,黄俊,等.京津冀冬季大气混合层高度与大气污染的关系[J].环境科学.2015,36(6):1935-1943.
[34] 周燕秋,倪长健,刘培川,等.成都市混合层厚度的计算及方法对比[J].成都信息工程学院学报.2015,30(1):102-105.
[35] 任阵海,万本太,虞统,等.不同尺度大气系统对污染边界层的影响及其水平流场输送[J].环境科学研究,2004,17(1):7-13.
[36] 李令军,王英,李金香,等.2000-2010北京大气重污染研究[J].中国环境科学,2012,32(1):23–30.
[37] 刘树华,刘振鑫,李炬,等.京津冀地区大气局地环流稱合效应的数值模拟[J].中国科学D辑:地球科学.2009,39(1):88-98.
[38] 窦晶晶,王迎春,苗世光.北京城区近地面比湿和风场时空分布特征[J].应用气象学报,2014,25(5):559-569.
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备注/Memo
收稿日期:2016-12-23 基金项目:国家科技支撑计划课题资助项目(2014BAC23B01)