| 北京地区不同天气条件下近地面大气电场特征 |
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| 引用本文: | 吴亭,吕伟涛,刘晓阳,董万胜,张义军,李成才,王美华,杨晶,李长河.北京地区不同天气条件下近地面大气电场特征[J].应用气象学报,2009,20(4):394-401. |
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| 作者姓名: | 吴亭 吕伟涛 刘晓阳 董万胜 张义军 李成才 王美华 杨晶 李长河 |
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| 作者单位: | 1.中国气象科学研究院, 北京 100081) |
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| 基金项目: | 国家自然科学基金项目,科技部公益性行业科研专项经费项目 |
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| 摘 要: | 利用2004年8月—2005年11月近地面大气电场仪的观测资料, 对北京地区不同天气条件下近地面大气电场特征进行分析。结果表明:北京地区晴天近地面大气电场日变化呈双峰双谷, 谷值分别出现在北京时05:00和12:00, 峰值分别出现在07:00和23:00, 并且表现出一定的季节变化; 晴天大气电场的变化与气溶胶含量的变化有密切关系, 两者呈正相关; 晴天大气电场与绝对湿度之间也表现出很强的相关性, 在一定程度上反应了水汽对大气电场的作用; 沙尘天气下风速均达到一定强度, 近地面大气电场为负值, 并且变化剧烈, 电场强度与PM10之间呈现较强的负相关, 而电场强度与风速之间没有表现出明显的相关性。
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| 关 键 词: | 大气电场 气溶胶 绝对湿度 沙尘天气 |
| 收稿时间: | 2008-05-20 |
Characteristics of Atmospheric Electric Field near the Earth's Surface Under Different Weather Conditions in Beijing |
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| Wu Ting,Lü Weitao,Liu Xiaoyang,Dong Wansheng,Zhang Yijun,Li Chengcai,Wang Meihua,Yang Jing,Li Changhe.Characteristics of Atmospheric Electric Field near the Earth's Surface Under Different Weather Conditions in Beijing[J].Quarterly Journal of Applied Meteorology,2009,20(4):394-401. |
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| Authors: | Wu Ting Lü Weitao Liu Xiaoyang Dong Wansheng Zhang Yijun Li Chengcai Wang Meihua Yang Jing Li Changhe |
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| Affiliation: | 1.Chinese Academy of Meteorological Sciences, Beijing 1000812.Department of Atmospheric Sciences, School of Physics, Peking University, Bei jing 1008713.Beijing Meteorological Equipment Support Center, Beijing 100089 |
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| Abstract: | Based on the measurements of atmospheric electric field and various meteorological elements from the rooftop of a building (about 15 m high), the characteristics of atmospheric electric field in different weather conditions are analyzed. Criteria to select fair-weather days are set according to the data of solar radiation, height of cloud base, precipitation amount and wind speed. As a result, 173 days out of nearly fifteen months are determined as fair-weather days. Data of electric field as well as visibility, concentration of PM10 and absolute humidity of these days are averaged respectively to describe their mean diurnal variations and correlations between electric field and various factors. The result indicates that the diurnal variation of electric field in fair-weather exhibits a double oscillation with trough at 05:00 and 12:00 and peak at 07:00 and 23:00 (Beijing time). The seasonal variation of electric field is also obvious. Variation of fair-weather atmospheric electric field is closely related to the variation of aerosol concentrations. Aerosols can absorb small ions, which dominate the conductivity of air. As the concentration of aerosol increases, the concentration of small ions decreases, and the conductivity decreases as well. Finally, the electric field increases. As a result, the fair-weather atmospheric electric field is positively correlated with the aerosol concentrations. Mean diurnal variation waveshape of absolute humidity in fair weather is similar with that of atmospheric electric field. Under some conditions absolute humidity and electric field also exhibit almost simultaneous fluctuations lasting for several hours. These characteristics show the influence of water vapor on atmospheric electric field. In dusty weather, electric field measured at the observatory remains highly negative and changes rapidly. Various quantities in several strong dust events are turbulent to study relationships between different elements. Result shows that there is a strong correlation between electric field and PM10 which reflects the concentrations of sand particles. However, in most cases, there is no obvious correlation between electric field and wind speed. Theoretically, atmospheric electric field in dusty weather is simultaneously determined by quantity of sand particles and wind speed. But the result indicates that the quantity of sand particles plays more important role in the change of atmospheric electric field. |
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| Keywords: | atmospheric electric field aerosol absolute humidity dusty weather |
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