Paper Publications
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[31] Association of Climate-related Total Atmospheric Energy Anomalies in the Tibetan Plateau with Haze in eastern China.Aerosol and Air Quality Research.2020(20)
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[32] Improved method of visibility parameterization focusing on high humidity and aerosol concentrations during fog–haze events: Application in the GRAPES_CAUCE model in Jing-Jin-Ji, China.Atmospheric Environment.2020(222)
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[33] 2001—2017 年中国3 个典型城市硫酸盐和硝酸盐湿沉降特征.生态环境学报.2020,28(11)
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[34] 中国中东部典型大城市近地面O3浓度对比分析.环境科学与技术.2019(S2)
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[35] The relationships between surface-column aerosol concentrations and meteorological factors observed at major cities in the Yangtze River Delta, China.Environmental Science and Pollution Research.2019(6)
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[36] 街道峡谷对近地层风场影响的观测和模拟分析.环境科学学报.2019,39(11)
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[37] 街道峡谷对近地层风场影响的观测和模拟分析.环境科学学报.2019,39(11)
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[38] 亚洲季风强弱年蒙自市大气环境容量差异估算.中国环境科学.2019,39(10)
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[39] 利用地面观测资料和AIRS卫星资料评估MACC再 分析臭氧数据中国地区的适用性.环境科学.2019,40(10)
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[40] Fine particulate matter (PM2:5) trends in China, 2013–2018: separating contributions from anthropogenic emissions and meteorology.Atmospheric Chemistry Physics.2019(19)
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[41] 2015 年冬季湖北省PM2.5 重污染传输特征及影响天气系统的数值模拟.气象.2019(8)
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[42] 泰安市冬季一次严重空气污染过程分析.环境科学研究.2019(7)
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[43] Regional Air Quality Forecast Using a Machine Learning Method and the WRF Model over the Yangtze River Delta, East China.Aerosol and Air Quality Research.2019(19):1602-1613
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[44] 徐州市大气PM2.5与O3作用关系的季节变化.中国环境科学.2019(6)
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[45] 近5年徐州市大气污染变化及相关气象作用.环境科学与技术.2019,42(S1)
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