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天津城区大气气溶胶复折射指数的反演及消光贡献分析
引用本文:张敏,崔振雷,韩素芹,蔡子颖,姚青. 天津城区大气气溶胶复折射指数的反演及消光贡献分析[J]. 环境科学研究, 2019, 32(9): 1483-1491. DOI: 10.13198/j.issn.1001-6929.2019.05.14
作者姓名:张敏  崔振雷  韩素芹  蔡子颖  姚青
作者单位:天津市环境气象中心,天津300074;天津市气象科学研究所,天津300074;天津市气象局,天津,300074;天津市环境气象中心,天津,300074
基金项目:中国气象局预报员专项(No.CMAYBY2017-006);国家自然科学基金项目(No.41771242);天津市气象局课题(No.201805ybxm03)
摘    要:气溶胶的复折射指数是直接影响其散射特性和吸收特性的基本物理量之一.为深入研究城市大气气溶胶的复折射指数特征,引入一种具有高时间分辨率优点的反演方法来反演气溶胶复折射指数.依据辐射传输理论,将天津大气边界层观测站观测到的高精度散射系数、吸收系数和数浓度谱分布数据利用查表法代入Mie理论气溶胶粒子群消光计算公式,对大气气溶胶复折射指数进行反演.结果表明:①天津城区2011年4月观测地点0.55 μm波长处的气溶胶复折射指数实部平均值为1.64,虚部平均值为0.015.②气溶胶复折射指数实部和虚部均有明显日变化规律,实部和虚部均与相对湿度呈正相关,与风速呈负相关.③利用反演得到的复折射指数对不同粒径大气气溶胶的消光特性进行计算发现,对散射特性而言,>0.25~1.00 μm粒子对散射系数的贡献率达86%;对吸收特性而言,>0.25~2.50 μm粒子对吸收系数的贡献率为53%,>2.50~32.00 μm粒子对吸收系数的贡献率为47%.研究显示,>0.25~1.00和>1.00~32.00 μm的粒子对吸收系数的贡献率均较高,但对散射系数而言,>0.25~1.00 μm的粒子贡献率较高,因此综合考虑气溶胶散射系数、吸收系数和消光系数,控制>0.25~1.00 μm的气溶胶粒子数浓度可有效改善大气能见度. 

关 键 词:复折射指数  大气气溶胶  Mie理论  消光  贡献率
收稿时间:2018-08-11
修稿时间:2019-05-18

The Retrieval of Aerosol Complex Refractive Index and the Contribution Rate Analyses of Extinction Coefficient in Urban Tianjin City
ZHANG Min,CUI Zhenlei,HAN Suqin,CAI Ziying and YAO Qing. The Retrieval of Aerosol Complex Refractive Index and the Contribution Rate Analyses of Extinction Coefficient in Urban Tianjin City[J]. Research of Environmental Sciences, 2019, 32(9): 1483-1491. DOI: 10.13198/j.issn.1001-6929.2019.05.14
Authors:ZHANG Min  CUI Zhenlei  HAN Suqin  CAI Ziying  YAO Qing
Affiliation:1.Tianjin Environmental Meteorological Center, Tianjin 300074, China2.Tianjin Institute of Meteorology, Tianjin 300074, China3.Tianjin Meteorological Bureau, Tianjin 300074, China
Abstract:Aerosol complex refractive index is one of the most fundamental optical parameter, which can directly relate to aerosol properties such as scattering and absorption index. In this study, we retrieved the aerosol complex refractive index using an inversion method with fine resolution for time series. Based on high precision measured size distribution of aerosol, aerosol scattering and absorption coefficients, the aerosol complex refractive index was retrieved using the Lorenz-Mie scattering theory. The results indicated that:(1) In the urban area of Tianjin City in April 2011, the real part of averaged equivalent complex refractive index of the aerosol at the wavelength of 0.55 μm was 1.64, and the imaginary part was 0.015. (2) An obvious daily variation regularity of aerosol complex refractive index is found in this study. Both the real part and imaginary part of complex refractive index were significantly positively correlated with relative humidity, and were negatively correlated with wind speed. (3) The contributions of different scale aerosol to total extinction coefficient were calculated, it showed that 86% of the scattering coefficient is from the small aerosols with radius >0.25-1.00 μm. Meanwhile, the aerosols particles with radius from 0.25 to 2.50 μm and from 2.50 to 32.00 μm contribute 53% and 47% to the total absorption coefficient, respectively. Studies had shown that aerosol particles >0.25-1.00 μm and particles >1.00-32.00 μm have similarly higher contribution rate to the absorption coefficient, but for the scattering coefficient, aerosol particles with a contribution rate of >0.25-1.00 μm are higher. Based on comprehensive consideration of aerosol scattering coefficient, absorption coefficient and extinction coefficient, controlling aerosol particles >0.25-1.00 μm can effectively improve atmospheric visibility. 
Keywords:complex refractive index  aerosol  Mie theory  extinction  contribution rate
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