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华北地区气溶胶混合状态对暖云微物理特征的影响 被引量:5

Influence of aerosols mixing state on the microphysics of warm clouds in North China
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摘要 在UWyo单组分气溶胶的绝热气块分档云模式基础上,发展了多种化学组分气溶胶的绝热气块分档云模式。利用2006年春季华北地区地面气溶胶分级采样的离子成分分析数据和同时段高空气溶胶、云微物理飞机观测资料,研究了气溶胶混合状态对暖云微物理特征的影响。模拟结果表明,华北地区气溶胶内部混合比外部混合有利于增加云凝结核数浓度、降低气块水汽最大饱和比、增加云滴数浓度。气溶胶的混合状态不同,形成的云滴谱的特征差异较大,主要体现在云滴谱的平均尺度和峰值的突出程度;云滴谱相对离散度在0.3附近变化,且随着云滴数浓度的增加,云滴谱相对离散度呈现减小的趋势。气溶胶混合状态能够影响暖云微物理特征,从而影响大气辐射和降水过程,在天气和气候变化的研究中应予以关注。 An adiabatic bin-sized cloud parcel model is developed by incorporating the multi-chemical-component(MCC) aerosol effects into the UWyo single-chemical-component(SCC) parcel model.The effects of aerosols mixing state on the warm cloud microphysics in North China are investigated by using the model based on the data of ion component analysis of ground aerosol grade sampling and the aerosol and cloud microphysics observation in high latitude in North China in spring 2006.It is found that in North China the aerosol internal mixing increases the CCN number concentration and the cloud droplet number concentration(CDNC) and decreases the maximum saturation ratio of water vapor in air parcel.It is also shown that the different aerosols mixing states in North China can affect the cloud droplet spectra(CDS) characteristics especially the CDS's average size and the peak value prominence degree;the relative dispersion value of CDS is near 0.3,and it decreases with increasing CDNC.It is indicated that aerosol mixing state can influence the microphysics of warm clouds,and thus affects atmospheric radiation and precipitation.This should attract more attentions in weather and climate change research in the future.
出处 《大气科学学报》 CSCD 北大核心 2011年第5期606-613,共8页 Transactions of Atmospheric Sciences
基金 国家自然科学基金资助项目(41105096 41075029 40975086) 科技部公益性行业(气象)科研专项(GYHY(QX)201006036) 南京信息工程大学校科研基金(20090218)
关键词 气溶胶 混合状态 云微物理 云模式 aerosols mixing state cloud microphysics cloud model
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  • 1黄晓锋,胡敏,何凌燕.北京市大气气溶胶PM_(2.5)中水溶性有机酸的测定[J].环境科学,2004,25(5):21-25. 被引量:24
  • 2赵春生,彭大勇,段英.海盐气溶胶和硫酸盐气溶胶在云微物理过程中的作用[J].应用气象学报,2005,16(4):417-425. 被引量:45
  • 3[1]Saxena P, Hildemann, LM. Water-soluble organics in atmospheric particles: a critical review of the literature and application of thermodynamics to identify candidate compounds[J]. Journal of Atmospheric Chemistry, 1996, 24: 57~109.
  • 4[2]Sempere R, Kawamura K. Comparative distributions of dicarboxylic acids and related polar compounds in snow, rain and aerosols from urban[J]. Atmospheric Environment, 1994, 28: 449~459.
  • 5[3]Zappoli S, Andracchio A, Fuzzi S, Facchini MC, Gelencsér A, Kiss G, et al. Inorganic, organic, and macromolecular components of fine aerosol in different areas of Europe in relation to their water solubility[J]. Atmospheric Environment, 1999, 33: 2733~2743.
  • 6[4]Saxena P, Hildemann LM, McMurry PH, Seinfeld JH. Organics alter hygroscopic behavior of atmospheric particles[J]. Journal of Geophysical Research, 1995, 100: 18755~18770.
  • 7[5]Cruz CN, Pandis SN. A study of the ability of pure secondary organic aerosol to act as cloud condensation nuclei[J]. Atmospheric Environment, 1997, 31: 2205~2214.
  • 8[6]Malm WC. The effects of models of aerosol hygroscopicity on the apportionment of extinction[J]. Atmospheric Environment, 1997, 31: 1965~1976.
  • 9[7]Kerminen VM. Relative roles of secondary sulfate and organics in atmospheric cloud condensation nuclei production[J]. Journal of Geophysical Research, 2001, 106: 17321~17333.
  • 10[8]Kawamura K, Kaplan IR. Motor exhaust emissions as a primary source for dicarboxylic acids in Los Angeles ambient air[J]. Environmental Science and Technology, 1987, 21: 105~110.

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