Field Experiment on Studying Solar Radiation Passing through Aerosol Layers

Yu. A. Izrael; V. M. Zakharov; N. N. Petrov; A. G. Ryaboshapko; V. N. Ivanov; A. V. Savchenko; Yu. V. Andreev; Yu. A. Puzov; B. G. Danelyan; V. P. Kulyapin

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Field Experiment on Studying Solar Radiation Passing through Aerosol Layers

机译：研究太阳辐射穿过气溶胶层的野外实验

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Results of a field experiment on studying solar radiation passing in the visible wavelength range are described with the model aerosol media created in the surface atmosphere. High-efficiency thermocondensation generators were used for creating model aerosol media. The index of refraction and an average size of the aerosol particles formed are close to those characteristic of the natural stratospheric aerosol. The composition and technical characteristics of the equipment complex used in the experiments to control aerosol optical and microphysical parameters and meteorological conditions of the experiment are considered. The Gaussian model of impurity dispersion in the boundary layer is used for the analysis and interpretation of measurement results. It is found that with a number concentration of aerosol particles of ～10~2-10~3 cm~(-3) (which corresponds to the aerosol density in the deposited layer of about 1-10 mg/m~2 with the layer thickness along the ray path of about 100 m) the solar radiation attenuation with artificial aerosol layers accounts for 1 to 10%. Model estimates are in satisfactory agreement with the measurement results.

机译：通过在地面大气中创建的模型气溶胶介质，描述了研究在可见光波长范围内通过的太阳辐射的野外实验结果。高效热冷凝发生器用于创建模型气溶胶介质。所形成的气溶胶颗粒的折射率和平均尺寸接近于自然平流层气溶胶的特征。考虑了用于控制气溶胶光学和微物理参数以及实验气象条件的实验中所用设备的组成和技术特性。边界层中杂质扩散的高斯模型用于分析和解释测量结果。结果发现，气溶胶颗粒的浓度为〜10〜2-10〜3 cm〜（-3）（相当于该层沉积层中的气溶胶密度约为1-10 mg / m〜2）。沿约100 m的光路厚度），人工气溶胶层的太阳辐射衰减占1％至10％。模型估计与测量结果令人满意。

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《Russian meteorology and hydrology》 |2009年第5期|265-273|共9页
作者
Yu. A. Izrael; V. M. Zakharov; N. N. Petrov; A. G. Ryaboshapko; V. N. Ivanov; A. V. Savchenko; Yu. V. Andreev; Yu. A. Puzov; B. G. Danelyan; V. P. Kulyapin;
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作者单位

Institute of Global Climate and Ecology, Roshydromet and Russian Academy of Sciences, ul. Glebovskaya 20b, Moscow, 107258 Russia;

Institute of Global Climate and Ecology, Roshydromet and Russian Academy of Sciences, ul. Glebovskaya 20b, Moscow, 107258 Russia;

Institute of Global Climate and Ecology, Roshydromet and Russian Academy of Sciences, ul. Glebovskaya 20b, Moscow, 107258 Russia;

Institute of Global Climate and Ecology, Roshydromet and Russian Academy of Sciences, ul. Glebovskaya 20b, Moscow, 107258 Russia;

Taifun Scientific Industrial Association, pr. Lenina 82, Obninsk, Kaluga oblast, 249020 Russia;

Taifun Scientific Industrial Association, pr. Lenina 82, Obninsk, Kaluga oblast, 249020 Russia;

Taifun Scientific Industrial Association, pr. Lenina 82, Obninsk, Kaluga oblast, 249020 Russia;

Taifun Scientific Industrial Association, pr. Lenina 82, Obninsk, Kaluga oblast, 249020 Russia;

Central Aerological Observatory, Pervomaiskaya ul. 3, Dolgoprudny, Moscow oblast, 141700 Russia;

v/ch (Military Unit) 52688;

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Field Experiment on Studying Solar Radiation Passing through Aerosol Layers

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