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劉誠
(東華理工大學副研究員)
鎖定
劉誠人物經歷
學習經歷:
2015年09月 –2018年12月,南京信息工程大學,博士
2017年01月 –2018年01月,美國俄克拉荷馬大學,訪問學者
2012年09月 –2015年07月,南京信息工程大學,碩士
2008年09月 –2012年07月,南京信息工程大學,本科
工作經歷:
劉誠研究方向
邊界層氣象與大氣環境;大氣污染物(如PM2.5、O3等)與邊界層之間的相互關係;邊界層夾卷的大渦模擬
劉誠科研成果
[1] Cheng Liu, H. Liu*, J. Huang, H. Xiao. 2021. Varying partitioning of surface turbulent fluxes regulates temperature-humidity dissimilarity in the convective atmospheric boundary layer. Geophysical Research Letters. 48, e2021GL095836
[12]
.
[11]
[2] Cheng Liu, J Huang*, XM Hu, C Hu, YWang, X Fang, L Luo, H-W Xiao, H-Y Xiao*. 2021. Evaluation of WRF-Chem simulations on vertical profiles of PM2.5 with UAV observations during a haze pollution event, Atmospheric Environment. 252, 118332.
[2]
[3] Cheng Liu, J Huang*, X Tao, L Deng, …& H-Y Xiao*. 2021. An observational study of the boundary-layer entrainment and impact of aerosol radiative effect under aerosol-polluted conditions, Atmospheric Research, 250, 105348
[3]
.
[4] Cheng Liu, J Huang*,Y Wang, X Tao, C Hu, L Deng, et al. 2020. Vertical distribution of PM2.5 and interactions with the atmospheric boundary layer during the development stage of a heavy haze pollution event
[4]
, Science of the Total Environment, 704, 135329.
[5] Cheng Liu, EFedorovich, J Huang*, XM Hu, Y Wang, X Lee. 2019. Impact of aerosol shortwave radiative heating on entrainment in the atmospheric convective boundary layer: a large-eddy simulation study
[5]
. Journal of the Atmospheric Sciences, 76(3):785-799.
[6] Cheng Liu, E Fedorovich*, J Huang. 2018. Revisiting entrainment relationships for shear-free and sheared convective boundary layers through large-eddy simulation
[6]
. Quarterly Journal of the Royal Meteorological Society, 144(716):2182-2195.
[7] Cheng Liu, J Huang*, E Fedorovich, XM Hu, Y Wang, X Lee. 2018. The effect of aerosol radiative heating on turbulence statistics and spectra in the atmospheric convective boundary layer: a large-eddy simulation study
[7]
. Atmosphere, 9(9): 347.
[8] Hu, C.*, Cheng Liu*,N Hu, J Hong, X Ai. 2022. Government environmental control measures on CO2 emission during the 2014 Youth Olympic Games in Nanjing: Perspectives from a top-down approach
[8]
. Journal of Environmental Sciences, 113: 165-178.
[9] Hu, C., Xu, J., Cheng Liu, Chen, Y., Yang, D., Huang, W., Deng, L., Liu, S., Griffis, T. J., and Lee, X. 2021.Anthropogenic and natural controls on atmospheric δ13C-CO2 variations in the Yangtze River Delta: Insights from a carbon isotope modeling framework
[9]
, Atmospheric Chemistry and Physics, 21, 10015–10037.
- 參考資料
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- 1. 東華理工大學江西省大氣污染成因與控制重點實驗室研究人員 .東華理工大學江西省大氣污染成因與控制重點實驗室網站[引用日期2021-09-10]
- 2. Evaluation of WRF-Chem simulations on vertical profiles of PM2.5 with UAV observations during a haze pollution event .Atmospheric Environment[引用日期2021-09-16]
- 3. An observational study of the boundary-layer entrainment and impact of aerosol radiative effect under aerosol-polluted conditions .Atmospheric Research[引用日期2021-09-16]
- 4. Vertical distribution of PM2.5and interactions with the atmospheric boundary layer during the development stage of a heavy haze pollution event .Science of The Total Environment[引用日期2021-09-16]
- 5. Impact of aerosol shortwave radiative heating on entrainment in the atmospheric convective boundary layer a simulation study .Journal of the Atmospheric Science[引用日期2021-09-16]
- 6. Revisiting entrainment relationships for shear-free and sheared convective boundary layers through large-eddy simulation .qjrms[引用日期2021-09-16]
- 7. The effect of aerosol radiative heating on turbulence statistics and spectra in the atmospheric convective boundary layer: a large-eddy simulation study .Atmosphere[引用日期2021-09-16]
- 8. Government environmental control measures on CO2emission during the 2014 Youth Olympic Games in Nanjing: Perspectives from a top-down approach .Journal of Environmental Sciences[引用日期2021-09-16]
- 9. Anthropogenic and natural controls on atmospheric δ13C-CO2 variations in the Yangtze River Delta: Insights from a carbon isotope modeling framework .Atmos. Chem. Phys.[引用日期2021-09-16]
- 10. 植被光合呼吸模型在千煙洲亞熱帶常綠針葉林的優化及驗證 .植物生態學報[引用日期2021-09-16]
- 11. Varying Partitioning of Surface Turbulent Fluxes Regulates Temperature-Humidity Dissimilarity .GRL[引用日期2022-01-07]
- 12. GRL .科研之友[引用日期2022-02-09]
- 13. 劉誠導師簡介 .水環學院官網[引用日期2023-03-21]
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