AEROSOL

作品数:685被引量:1953H指数:20
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Accurate Shortwave Radiation Simulation with a Two-Layer Aerosol Model in Xinjiang Region
《Journal of Meteorological Research》2024年第1期69-87,共19页Guan HUANG Yonghang CHEN Qiong LIU Pengtao WANG Qianshan HE Qing HE Shuai LI Weiling SHAO Ting FAN 
Science and Technology Planning Program of Xinjiang(2022E01047);National Natural Science Foundation of China(42030612 and 41905131);Scientific Research Program Funded by Education Department of Shaanxi Provincial Government(23JK0625);Natural Science Basic Research Program of Shaanxi Province(2021JQ-768);Social Science Planning Fund Program of Xi’an City(23JX150)。
To harness the rich solar energy resources in Xinjiang Region of Northwest China,this study tries to address the issue of lack of downward surface shortwave radiation(DSSR)observations and the need to improve the accu...
关键词:downward surface shortwave radiation(DSSR) aerosol vertical distribution Clouds and the Earth’s Radiant Energy System(CERES) Santa Barbara Discrete Atmospheric Radiative Transfer(SBDART) Xinjiang 
Variation in Sunshine Duration and Related Aerosol Influences at Shangdianzi GAW Station, China: 1958–2021
《Journal of Meteorological Research》2023年第4期551-563,共13页Weijun QUAN Zhiqiang MA Ziming LI Xiaolan LI Yingruo LI Xiangao XIA Huaigang ZHOU Hujia ZHAO Zhenfa WANG Weiwei PU Fan DONG Di HE Liyan ZHOU Qingfeng SHI Wenyan WANG Fang JIA 
Supported by the China Scholarship Council (202205330024);National Key Research and Development Program of China (2017YFB0504002);National Science and Technology Infrastructure Platform Project (2017);Special Fund for Basic Scientific Research of Institute of Urban Meteorology (IUMKY201735)。
Sunshine duration(SD) is adopted widely to study global dimming/brightening. However, long-term simultaneous measurements of SD and closely related impact factors require further analysis to elucidate how and why SD h...
关键词:sunshine duration global dimming/brightening multitemporal-scale variation partial least squares Shangdianzi 
Direct Radiative Effects of Dust Aerosols over Northwest China Revealed by Satellite-Derived Aerosol Three-Dimensional Distribution
《Journal of Meteorological Research》2022年第5期767-778,共12页Rui JIA Yuzhi LIU Yan LI Jun LI Xiaolin HU Ronglu GAO Yunfei TIAN Yanling SUN Nannan MU Minfen ZHAO 
Supported by the Gansu Provincial Special Fund for Scientific and Technological Innovation and Development(2019ZX-06);Fundamental Research Funds for the Central Universities(lzujbky-2020-kb31);Meteorological Science and Technology Research Project of Shandong Meteorological Bureau(2019sdqxm14)。
Northwest China is recognized as a main source and a major transport channel of dust aerosols in East Asia.With a fragile ecological environment,this region is quite sensitive to global climate change.Based on the sat...
关键词:aerosol three-dimensional distribution direct radiative effect Northwest China 
Advances in Research on the ITCZ:Mean Position,Model Bias,and Anthropogenic Aerosol Influences被引量:1
《Journal of Meteorological Research》2021年第5期729-742,共14页Hua ZHANG Xinyu MA Shuyun ZHAO Linghan KONG 
Supported by the National Natural Science Foundation of China(42005128);National Key Research and Development Program of China(2017YFA0603502)。
The zonal-mean position of the intertropical convergence zone(ITCZ)and its shift in the meridional direction significantly influence both the tropical and even global climate.This work reviews three aspects of the pro...
关键词:intertropical convergence zone(ITCZ) cross-equatorial energy transport double-ITCZ AEROSOL 
Assessing the Influence of Aerosol on Radiation and Its Roles in Planetary Boundary Layer Development
《Journal of Meteorological Research》2021年第2期384-392,共9页Zhigang CHENG Yubing PAN Ju LI Xingcan JIA Xinyu ZHANG Pengkun MA Qianqian WANG Junxia DOU Jingjiang ZHANG Jiannong QUAN 
the National Key Research and Development Program of China(2017YFC0209604 and 2018YFF0300101);Beijing Natural Science Foundation(8204062)。
A comprehensive measurement of planetary boundary layer(PBL)meteorology was conducted at 140 and 280 m on a meteorological tower in Beijing,China,to quantify the effect of aerosols on radiation and its role in PBL dev...
关键词:planetary boundary layer(PBL) AEROSOL RADIATION sensible heat flux(SH) TURBULENCE 
Research Progress on Estimation of the Atmospheric Boundary Layer Height被引量:6
《Journal of Meteorological Research》2020年第3期482-498,共17页Hongsheng ZHANG Xiaoye ZHANG Qianhui LI Xuhui CAI Shaojia FAN Yu SONG Fei HU Huizheng CHE Jiannong QUAN Ling KANG Tong ZHU 
Supported by the National Key Research and Development Program of China(2016YFC0203300 and 2017YFC0209600);National Research Program for Key Issues in Air Pollution Control(DQGG0104 and DQGG0106);National Natural Science Foundation of China(91544216).
Atmospheric boundary layer height(ABLH)is an important parameter used to depict characteristics of the planetary boundary layer(PBL)in the lower troposphere.The ABLH is strongly associated with the vertical distributi...
关键词:atmospheric boundary layer height(ABLH) turbulent boundary layer aerosol accumulation layer remote sensing retrieval PARAMETERIZATION 
Influence of High Relative Humidity on Secondary Organic Carbon: Observations at a Background Site in East China
《Journal of Meteorological Research》2019年第5期905-913,共9页Linlin LIANG Guenter ENGLING Yuan CHENG Xiaoye ZHANG Junying SUN Wanyun XU Chang LIU Gen ZHANG Hui XU Xuyan LIU Qianli MA 
Supported by the National Key Research and Development Program of China(2016YFC0202300 and 2017YFC0212803);Beijing Natural Science Foundation(8192055);State Environmental Protection Key Laboratory of Sources and Control of Air Pollution Complex(SCAPC201701);Basic Research and Operation Funds of Chinese Academy of Meteorological Sciences(2015Y001 and2017Z011)
To investigate the impacts of relative humidity(RH) on secondary organic aerosol(SOA) concentrations and chemical reactions, the carbonaceous aerosol components [i.e., organic carbon(OC) and element carbon(EC)] were q...
关键词:RELATIVE humidity ORGANIC AEROSOL secondary ORGANIC carbon(SOC) PHOTOCHEMISTRY AQUEOUS-PHASE 
Below-Cloud Aerosol Scavenging by Different-Intensity Rains in Beijing City被引量:4
《Journal of Meteorological Research》2019年第1期126-137,共12页Tian LUAN Xueliang GUO Tianhang ZHANG Lijun GUO 
Supported by the China Meteorological Administration Special Public Welfare Research Fund(GYHY200806001 and GYHY201406001);National Natural Science Foundation of China(41605111);Research Funds of the Chinese Academy of Meteorological Sciences(2016Z004)
Below-cloud aerosol scavenging process by precipitation is important for cleaning the polluted aerosols in the atmosphere, and is also a main process for acid rain formation. However, the related physical mechanism ha...
关键词:PM2.5 below-cloud SCAVENGING RAIN INTENSITY impact FACTORS 
Sensitivity Study of Anthropogenic Aerosol Indirect Forcing through Cirrus Clouds with CAM5 Using Three Ice Nucleation Parameterizations
《Journal of Meteorological Research》2018年第5期693-706,共14页Xiangjun SHI Xiaohong LIU 
Supported by the National Science Foundation of US(ATM-1642289);National Natural Science Foundation of China(41775095)
Quantifying the radiative forcing due to aerosol-cloud interactions especially through cirrus clouds remains chal- lenging because of our limited understanding of aerosol and cloud processes. In this study, we investi...
关键词:aerosol indirect forcing cirrus clouds CAM5 
Estimation of the Aerosol Radiative Effect over the Tibetan Plateau Based on the Latest CALIPSO Product被引量:7
《Journal of Meteorological Research》2018年第5期707-722,共16页Rui JIA Yuzhi LIU Shan HUA Qingzhe ZHU Tianbin SHAO 
Supported by the Strategic Priority Research Program of Chinese Academy of Sciences(XDA2006010301);National Natural Science Foundation of China(91737101,41475095,and 41405010);Fundamental Research Funds for Central Universities(lzujbky-2017-63);China 111 Project(B13045)
Based on the CALIPSO (Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation) Version 4.10 products released on 8 November 2016, the Level 2 (L2) aerosol product over the Tibetan Plateau (TP) is evalu...
关键词:aerosol radiative effect Cloud-Aerosol Lidar and Infrared Pathfinder Satellite Observation (CALIPSO) Version 4.10 product Tibetan Plateau 
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