师资

姓  名:

彭怡然

职  称:

副教授

办公电话:

13051887931

电子邮件:

Pyiran@tsinghua.edu.cn

教育背景

 

北京大学理学学士(1999
加拿大戴尔豪斯大学大气科学博士(2004



工作经历

 

德国马克思-普朗克气象研究所博士后(2004-2007
加拿大气候与模式分析中心博士后、研究助理(2007-2013
清华大学地球系统科学系副教授(2013至今)



研究兴趣

气溶胶与云的动力和物理过程及其在全球气候模式中的参数化。气溶胶对辐射和气候产生的直接和间接影响。


奖励荣誉

主持国家自然科学基金面上和青年项目各一项,参与国家自然科学基金重大项目,科技部重点专项。

学术成果


  1. Wei, J. Y. Peng*, L. Sun, and J. Guo, 2019. Validation and comparison of MODIS Collection 6.1 Level 3 atmospheric aerosol products in spatial distributions and trends over land, Atmospheric Environment, 206, 30-44,https://doi.org/10.1016/j.atmosenv.2019.03.001.

  2. Wei, J., Z. Li, L. Sun, Y. Peng, and L. Wang, 2019. An improved merge scheme for MODIS Collection 6.1 Dark Target and Deep Blue combined aerosol products, Atmospheric Environment, 202,312-327, https://doi.org/10.1016/j.atmosenv.2019.01

  3. Wei, J., L. Sun, Y. Peng*, L. Wang, Z. Zhang, M. Bilal, and Y. Ma, 2018. An improved high-spatial-resolution aerosol retrieval algorithm for MODIS images over land. Journal of Geophysical Research: Atmospheres, 123, https://doi.org/10.1029/2017JD027795. 

  4. Peng, Y., J. Zhao, Z. Sun, W. Zhao, X. Wei, and J. Li, 2018. Sensitivity of dust radiative forcing to representation of aerosol size distribution in radiative transfer model, Journal of Quantitative Spectroscopy and Radiative Transfer, 219, 292-303. 

  5. Zhao, W., Y. Peng*, B. Wang, and J. Li, Cloud longwave scattering effect and its impact on climate simulation, 2018. Atmosphere, 9, 153-173, doi:10.3390/atmos9040153.  

  6. Zhao, W., Y. Peng*, B. Wang, B. Yi, Y. Lin, and J. Li, 2018. Comparison of three ice cloud optical schemes in climate simulations with community atmospheric model version 5, Atmospheric Research, 204, 37-53. 

  7. Yang, Q., F. Zhang, H. Zhang, Z. Wang, J. Li, K. Wu, Y. Shi, and Y. Peng, 2018. Assessment of two-stream approximations in a climate model, Journal of Quantitative Spectroscopy and Radiative Transfer, 225, 25-34. 

  8. Gu, C., H. Li, F. Xu, C. Peng, X. Wang, S. Xu, and Y. Peng, 2018. Numerical study of Jiulongjiang river plume in the wet season 2015, Regional Studies in Marine Science, 24, 82-96. 

  9. Liu, Y., M. Zhang, Z. Liu, Y. Xia, Y. Huang, Y. Peng, and J. Zhu, 2018. A possible role of dust in resolving the Holocene temperature conundrum, Scientific Report, 8, 4434-4443. 

  10. Zhao, C., Y.  Qiu, X. Dong, Z. Wang, Y. Peng, B. Li, Z. Wu, and Y. Wang, 2018. Negative aerosol-cloud re relationship from aircraft observations over Hebei, China, Earth and Space Science, 5, 19-29. 

  11. Chen, J., Y. Liu, M. Zhang, and Y. Peng, 2018. Height dependency of aerosol-cloud interaction regimes, Journal of Geophysical Research: Atmosphere, 123, doi: 10.1002/2017JD027431.

  12. Xie, X., H. Zhang, X. Liu, Y. Peng and Y. Liu, 2018. Role of microphysical parameterizations with droplet relative dispersion in IAP AGCM 4.1, Advances in Atmospheric Science, 35, doi: 10.1007/s00376-017-7083-5.

  13. Zhao, X., Y. Lin, Y. Peng, B. Wang, H. Morrison, and A. Gettelman, 2017. A single ice approach using varying ice particle properties in global climate model microphysics, Journal of Advances in Modeling Earth Systems, 9(5): 2138-2157.

  14. Xie, X., H. Zhang, X. Liu, Y. Peng, and Y. Liu, 2017. Sensitivity study of cloud parameterizations with relative dispersion in CAM5.1: impacts on aerosol indirect effects, Atmospheric Chemistry and Physics, 17, doi: 10.5194/acp-17-5877-2017.

  15. Arora, V., Y. Peng, W. Kurz, J. Fyfe, B. Hawkins, and A. Werner, 2016. Potential near-future carbon uptake overcomes losses from a large insect outbreak in British Columbia, Canada, Geophysical Research Letters, 43, doi:10.1002/2015GL067532.

  16. Dong, W., Y. Lin, J. Wright, Y. Ming, Y. Xie, B. Wang, Y. Luo, W. Huang, J. Huang, L. Wang, L. Tian, Y. Peng, and F. Xu, 2016. Summer rainfall over the southwestern Tibetan Plateau controlled by deep convection over the Indian subcontinent, Nature Communication, 7, 10925-10933.

  17. Chen, J., Y. Liu, M. Zhang, and Y. Peng, 2016. New understanding and quantification of the regime dependence of aerosol-cloud interaction for studying aerosol indirect effects, Geophysical Research Letters, 43, doi:10.1002/2016GL067683.

  18. Li, J., Q. Min, Y. Peng, Z. Sun, and J. Zhao, 2015. Accounting for dust aerosol size distribution in radiative transfer, Journal of Geophysical Research: Atmosphere, 120, 6537–6550, doi:10.1002/2015JD023078.

  19. Peng, Y., V. Arora, W. Kurz, R. Hember, B. Hawkins, J. Fyfe, and A. Werner, 2014. Climate and atmospheric drivers of historical terrestrial carbon uptake in the province of British Columbia, Canada, Biogeosciences, 11, 635-649, doi:10.5194/bg-11-635-2014. 

  20. Li, J., K. von Salzen, Y. Peng, H. Zhang, and X. Liang, 2013. Evaluation of black carbon semi-direct radiative effect in a climate model, Journal of Geophysical Research: Atmosphere, 118, 4715-4728, doi:10.1002/jgrd.50327. 

  21. Xie, X., X. Liu, Y. Peng, Y. Wang, Z. Yue, and X Li, 2013. Numerical simulation of clouds and precipitation depending on different relationships between aerosol and cloud droplet spectral dispersion, Tellus B, 65, http://dx.doi.org/10.3402/tellusb.v65i0.19054. 

  22. Peng, Y., K. von Salzen and J. Li, 2012. Simulation of mineral dust aerosol with piecewise log-normal approximation (PLA) in CanAM4-PAM, Atmospheric Chemistry and Physics, 12, 6891-6914. 

  23. Liu, Y., P. Daum, H. Guo and Y. Peng, 2008. Dispersion bias, dispersion effect, and the aerosol-cloud conundrum, Environmental Research Letters, 3(4), http://dx.doi.org/10.1088/1748-9326/3/4/045021 

  24. Cheng, T., Y. Peng*, J. Feichter and I. Tegen, 2008. An improvement on the dust emission scheme in the global aerosol-climate model ECHAM5-HAM, Atmospheric Chemistry and Physics, 8, 1105-1117. 

  25. Peng, Y., U. Lohmann, R. Leaitch and M. Kulmala, 2007. An investigation into the aerosol dispersion effect through the activation process in marine stratus clouds, Journal of Geophysical Research: Atmosphere, 112, doi:10.1029/2006JD007401 

  26. Peng, Y., U. Lohmann and R. Leaitch, 2005. Importance of vertical velocity variations in the cloud droplet nucleation process of marine stratus clouds, Journal of Geophysical Research: Atmosphere, 110, doi: 10.1029/2004JD004922 

  27. Peng, Y. and U. Lohmann, 2003. Sensitivity study of the spectral dispersion of the cloud droplet size distribution on the indirect aerosol effect, Geophysical Research Letters, 30, doi: 10.1029/2003GL017192 

  28. Peng, Y., U. Lohmann and R. Leaitch, C. Banic and M. Couture, 2002. The cloud albedo-cloud droplet effective radius relationship for clean and polluted clouds from RACE and FIRE.ACE, Journal of Geophysical Research: Atmosphere, 107, doi: 10.1029/2000JD000281.