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首页> 外文会议>International Symposium on Atmospheric and Ocean Optics, Atmospheric Physics >RESEARCH OF THE FIRES INFLUENCE ON THE STATE OF ATMOSPHERE POLLUTION AND ATMOSPHERIC SEDIMENTS OVER THE SEVASTOPOL
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RESEARCH OF THE FIRES INFLUENCE ON THE STATE OF ATMOSPHERE POLLUTION AND ATMOSPHERIC SEDIMENTS OVER THE SEVASTOPOL

机译:对塞瓦斯托波尔大气污染和大气沉积物的影响研究

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The period of highest fire activity (August 2017) by the radiation power and the number of fires for the period since 2007 to 2019 was revealed. Based on image processing techniques in the infrared range (on a 4 urn channel) according to MODIS and VIIRS data the statistical analysis of fire data was carried out and variations in the radiation power from fires were studied. The main optical and microphysical characteristics of the atmospheric aerosol for the periods with the largest number of fires for the Black Sea region wereanalyzed. A comprehensive analysis of the main optical characteristics variability and precipitation samples for periods of special fire activity was carried out. Considering that nitrogen oxides enter the atmosphere as a result of combustion processes, an analysis of atmospheric precipitation samples for the content of nitrates for days with the maximum number of thermoactive points according to satellite data was carried out in order to identify a possible correlation.
机译:最高火灾活动(2017年8月)通过辐射权和自2007年至2019年至2019年以来的燃烧人数。基于根据MODIS和VIIRS数据的红外范围(在4 URN通道上)的图像处理技术,对火数据进行统计分析,并研究了来自火灾的辐射功率的变化。对黑海地区最大火灾最多的燃烧时期的主要光学和微神科特征。进行了对特殊火灾活动时期的主要光学特性变异性和降水样本的综合分析。考虑到氮氧化物由于燃烧过程而进入大气,进行了根据卫星数据的最大热敏点的硝酸盐含量的大气沉淀样品的分析,以识别可能的相关性。

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