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| Atmospheric heating rate due to black carbon aerosols: Uncertainties and impact factors 期刊论文
, 2020, 卷号: 240
作者: Lu Q.; Liu C.; Zhao D.; Zeng C.; Li J.; Lu C.; Wang J.; Zhu B.
  收藏 | 浏览/下载:18/0 | 提交时间:2020/07/28
Aerosols Aircraft accidents Atmospheric radiation Boundary layer flow Boundary layers Carbon Fog Heating rate Incident solar radiation Mixing Optical properties Optical radar Size distribution Aerosol robotic networks Atmospheric heating rate Black carbon Empirical approximations Light absorbing aerosols Planetary boundary layers Radiative forcings Vertical distributions Heating aerosol property black carbon heating radiative forcing radiative transfer size distribution vertical distribution |
| Impact of atmospheric quasi-biweekly oscillation on the persistent heavy PM2.5 pollution over Beijing-Tianjin-Hebei region, China during winter 期刊论文
, 2020, 卷号: 242
作者: Gao L.; Wang T.; Ren X.; Zhuang B.; Li S.; Yao R.; Yang X.-Q.
收藏 | 浏览/下载:30/0 | 提交时间:2020/07/28
Life cycle Troposphere Beijing-tianjin-hebei regions East Asian winter monsoon Favorable conditions Lower troposphere Meteorological condition Phase composites PM2.5 concentration Pm2.5 pollutions Pollution atmospheric pollution concentration (composition) general circulation model particulate matter seasonal variation source apportionment Beijing [Beijing (ADS)] Beijing [China] China Hebei Tianjin |
| Effect of the “coal to gas” project on atmospheric NOX during the heating period at a suburban site between Beijing and Tianjin 期刊论文
, 2020, 卷号: 241
作者: Zhao S.; Hu B.; Gao W.; Li L.; Huang W.; Wang L.; Yang Y.; Liu J.; Li J.; Ji D.; Zhang R.; Zhang Y.; Wang Y.
收藏 | 浏览/下载:9/0 | 提交时间:2020/07/28
Air pollution Coal Gases Meteorology Nitrogen oxides Atmospheric oxidation Average concentration Beijing-tianjin-hebei regions Favorable conditions Meteorological condition Meteorological elements Motor vehicle emissions Variation characteristics Heating atmospheric pollution coal supply concentration (composition) heating meteorology natural gas nitrogen oxides suburban area Beijing [China] China Hebei Langfang Tianjin |
| Seasonal variations of atmospheric CH4 at Jingdezhen station in Central China: Understanding the regional transport and its correlation with CO2 and CO 期刊论文
, 2020, 卷号: 241
作者: Xia L.; Zhang G.; Zhan M.; Li B.; Kong P.
收藏 | 浏览/下载:11/0 | 提交时间:2020/07/28
Carbon dioxide Cluster analysis Greenhouse gases Meteorology Mixing Backward trajectory Central chinas Identification procedure In-situ measurement Observation networks Seasonal characteristics Strong correlation Yangtze river delta Atmospheric movements atmospheric chemistry atmospheric pollution carbon dioxide carbon monoxide cluster analysis correlation emission inventory greenhouse gas in situ measurement methane mixing ratio pollutant transport seasonal variation wind direction wind velocity China Jiangxi Jingdezhen |
| Seasonal prediction of surface O3-related meteorological conditions in summer in North China 期刊论文
, 2020, 卷号: 246
作者: Yin Z.; Li Y.; Cao B.
收藏 | 浏览/下载:14/0 | 提交时间:2020/07/28
Climatology Emission control Forecasting Climate forecasts Climate prediction model Emission reduction Ground level ozone concentration Hybrid prediction models Linear correlation coefficient Meteorological condition Seasonal prediction Climate models atmospheric pollution concentration (composition) meteorology ozone prediction seasonal variation summer China |
| Changes of winter extreme precipitation in Heilongjiang province and the diagnostic analysis of its circulation features 期刊论文
, 2020, 卷号: 245
作者: Zhang L.; Li Y.; Zhang F.; Chen L.; Pan T.; Wang B.; Ren C.
收藏 | 浏览/下载:18/0 | 提交时间:2020/07/28
Atmospheric temperature Extreme weather Global warming Vortex flow Atmospheric circulation patterns Extreme precipitation High-latitude regions Interannual variability Large-scale circulation patterns Meteorological station Precipitation variability Winter precipitation Precipitation (meteorology) annual variation atmospheric circulation extreme event global warming precipitation (climatology) temperature effect winter China Heilongjiang |
| The development and application of satellite remote sensing for atmospheric compositions in China 期刊论文
, 2020, 卷号: 245
作者: Zhang X.; Wang F.; Wang W.; Huang F.; Chen B.; Gao L.; Wang S.; Yan H.; Ye H.; Si F.; Hong J.; Li X.; Cao Q.; Che H.; Li Z.
收藏 | 浏览/下载:28/0 | 提交时间:2020/07/28
Air quality Atmospheric composition Budget control Geostationary satellites Greenhouse gases Space optics Space research Atmospheric interaction Development and applications Geostationary missions Greenhouse gases (GHG) In-situ observations Remote sensing instruments Satellite remote sensing Space exploration mission Remote sensing air quality atmospheric chemistry chemical composition energy budget geostationary satellite greenhouse gas image resolution nadir remote sensing satellite mission trace gas China |
| Characteristics of Low-level jets during 2015–2016 and the effect on fog in Tianjin 期刊论文
, 2020, 卷号: 245
作者: Wu B.; Li Z.; Ju T.; Zhang H.
收藏 | 浏览/下载:22/0 | 提交时间:2020/07/28
Atmospheric boundary layer Atmospheric humidity Boundary layer flow Life cycle Meteorological instruments Shear flow Weather information services Wind Atmospheric stability Automatic weather stations Height distribution Inertial oscillation Meteorological tower Negative correlation Prevailing wind directions Seasonal and diurnal variations Fog boundary layer diurnal variation fog jet stream seasonal variation wind direction wind profile wind shear wind velocity China Tianjin |
| Precipitation chemistry in the Source Region of the Yangtze River 期刊论文
, 2020, 卷号: 245
作者: Li Z.; Li Z.; Song L.; Gui J.; Xue J.; Zhang B.; Gao W.
收藏 | 浏览/下载:32/0 | 提交时间:2020/07/28
Atmospheric thermodynamics Factor analysis Ions Multivariant analysis Transport properties Anthropogenic sources Ionic concentrations Monsoon circulations Neutralization factor Precipitation chemistry Precipitation samples Regional circulation Source region of the yangtze rivers Water vapor atmospheric circulation chemical composition concentration (composition) ionic composition point source precipitation quality quantitative analysis water vapor westerly China Yangtze River |
