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黄文誉

副教授

个人信息

电子邮箱：

学科：大气科学

教育经历

2003-2007南京大学大气科学学院气象学专业本科
2007-2011，南京大学大气科学学院气象学专业博士（导师：伍荣生）

工作经历

2011-2013，清华大学地球系统科学研究中心博士后（合作导师：王斌）
2014-现在清华大学地球系统科学系助理教授、副教授

研究方向

海洋模式中的物理过程参数化、大气动力学、气溶胶与天气气候的关系、海气相互作用和海洋动力学。

1、提出了一种基于深度学习的海表粗糙度参数化方案，成功将该方案应用到课题组开发的西北太平洋区域的海洋-大气-波浪耦合模式WindWave1.0中。在2020年8月的五个台风案例中，与四个传统方案相比，在24、48和72小时预报时效，使用新方案预报的海表风的RMSE分别降低了6.02%至14.75%、11.17%至18.30%和11.91%至19.46%，这表明新的海表粗糙度方案能够成功改进西北太平洋海表风的预报。

2、率先论证了北极涛动与西伯利亚高压不存在典型的负相关关系。

3、发现了东亚冬季的暖环流型容易向冷环流型转换，而冷环流型倾向于转换为另外一种冷环流型。

4、率先揭示了欧洲阻塞活动对华南冬季极端降水的激发机制，并发现了华南冬季极端降水的主要水汽来源依次为南海、西北太平洋、东海、华南自身和东南亚。

近期发表论文：

[1] Huang W*, X. He, Z. Yang, T. Qiu, J. S. Wright, B. Wang, and D. Lin (2018), Moisture sources for wintertime extreme precipitation events over South China during1979-2013,Journal of Geophysical Research: Atmospheres,doi:10.1002/2018JD028485.

[2] Huang W*, Z. Yang, X. He, D. Lin, B. Wang, J. S. Wright, R. Chen, W. Ma, and F. Li (2018),A possible mechanism for the occurrence of wintertime extreme precipitation events over South China,Climate Dynamics,doi:10.1007/s00382-018-4262-8.

[3] Huang, W*, R. Chen, Z. Yang, B. Wang, and W. Ma (2017), Exploring the combined effects of the Arctic Oscillation and ENSO on the wintertime climate over East Asia using self-organizing maps, Journal of Geophysical Research: Atmospheres, 122, 9107–9129, doi:10.1002/2017JD026812.

[4] Yang, Z.,W. Huang*, B. Wang, R. Chen, J. S. Wright, and W. Ma (2017), Possible mechanisms for four regimes associated with cold events over East Asia,Climate Dynamics, doi:10.1007/s00382-017-3905-5.

[5] Chen R.,W. Huang*, B. Wang, Z. Yang, J. S. Wright, and W. Ma (2017),On the co-occurrence of wintertime temperature anomalies over eastern Asia and eastern North America,Journal of Geophysical Research: Atmospheres,doi:10.1002/2016jd026435.

[6]Huang, W.*, R. Chen, B. Wang, J. S. Wright, Z. Yang, and W. Ma (2017), Potential vorticity regimes over East Asia during winter,Journal of Geophysical Research: Atmospheres,doi: 10.1002/2016JD025893.

[7] Shi, Y., B. Wang, andW. Huang* (2017), A “self-adjustment” mechanism for mixed-layer heat budget in the equatorial Atlantic cold tongue,Atmospheric Science Letters, doi:10.1002/asl.728.

[8]Huang, W.*, B. Wang, and J. S. Wright (2016), A potential vorticity-based index for the East Asian winter monsoon,Journal of Geophysical Research: Atmospheres,121(16), 9382-9399, doi:10.1002/2016JD025053.

[9]Huang, W. *, B. Wang, J. S. Wright, and R. Chen (2016), On the Non-Stationary Relationship between the Siberian High and Arctic Oscillation,PLoS ONE,11(6), 15, doi:10.1371/journal.pone.0158122.

[10]Huang, W., B. Wang, Y. Yu, and L. Li (2014), Improvements in LICOM2. Part I: Vertical Mixing,Journal of Atmospheric and Oceanic Technology,31(2), 531-544, doi:10.1175/jtech-d-13-00065.1.

[11]Huang, W., B. Wang, L. Li, and Y. Yu (2014), Improvements in LICOM2. Part II: Arctic Circulation,Journal of Atmospheric and Oceanic Technology,31(1), 233-245, doi:10.1175/jtech-d-13-00064.1.

[12]Huang, W., et al. (2014), Variability of atlantic meridional overturning circulation in FGOALS-g2,Advances in Atmospheric Sciences,31(1), 95-109, doi:10.1007/s00376-013-2155-7.

[13]黄文誉*,王斌,李立娟,等. 2014,耦合模式FGOALS-g2中大西洋经向翻转流对3个典型浓度路径的响应,气候与环境研究,19(6), 670-682,doi:10.3878/j.issn.1006-9585.2013.13130.

[14] Dong, F., Y. Li, B. Wang,W. Huang, Y. Shi, and W. Dong (2016), Global Air-Sea CO2 Flux in 22 CMIP5 Models: Multiyear Mean and Interannual Variability,Journal of Climate,29(7), 2407-2431, doi:10.1175/jcli-d-14-00788.1.

[15] Dong, W., Y. Lin., J. S. 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 Communications,7, doi:10.1038/ncomms10925.

[16] Xia, K., B. Wang, L. J. Li, S. Shen,W. Huang, S. Xu, L. Dong, and L. Liu (2014), Evaluation of Snow Depth and Snow Cover Fraction Simulated by Two Versions of the Flexible Global Ocean-Atmosphere-Land System Model,Advances in Atmospheric Sciences,31(2), 407-420, doi:10.1007/s00376-013-3026-y.

[17] Wang, B., M. Liu, Y. Yu, L. Li, P. Lin, L. Dong, L. Liu, J. Liu,W. Huang, S. Xu, S. Shen, Y. Pu, W. Xue, K. Xia, Y. Wang, W. Sun, N. Hu, X. Huang, H. Liu, W. Zheng, B. Wu, T. Zhou, and G. Yang (2013), Preliminary evaluations of FGOALS-g2 for decadal predictions,Advances in Atmospheric Sciences,30(3), 674-683, doi:10.1007/s00376-012-2084-x.

[18] Li, L., P. Lin, Y. Yu, B. Wang, T. Zhou, L. Liu, J. Liu, Q. Bao, S. Xu,W. Huang, K. Xia, Y. Pu, L. Dong, S. Shen, Y. Liu, N. Hu, M. Liu, W. Sun, X. Shi, W. Zheng, B. Wu, M. Song, H. Liu, X. Zhang, G. Wu, W. Xue, X. Huang, G. Yang, Z. Song, and F. Qiao (2013), The flexible global ocean-atmosphere-land system model, Grid-point Version 2: FGOALS-g2,Advances in Atmospheric Sciences,30(3), 543-560, doi:10.1007/s00376-012-2140-6.

[19] Li, L., B. Wang, L. Dong, L. Liu, S. Shen, N. Hu, W. Sun, Y. Wang,W. Huang, X. Shi, Y. Pu, and G. Yang (2013), Evaluation of grid-point atmospheric model of IAP LASG version 2 (GAMIL2),Advances in Atmospheric Sciences,30(3), 855-867, doi:10.1007/s00376-013-2157-5.

[20] Xu, S., M. Song, J. Liu, B. Wang, L. Li,W. Huang, L. Liu, K. Xia, W. Xue, Y. Pu, L. Dong, S. Shen, N. Hu, M. Liu, and W. Sun (2013), Simulation of sea ice in FGOALS-g2: Climatology and late 20th century changes,Advances in Atmospheric Sciences,30(3), 658-673, doi:10.1007/s00376-013-2158-4.

[21]Dong L., L. Li,W. Huang, Y. Wang, and B. Wang (2012), Preliminary Evaluation of Cloud Fraction Simulations by GAMIL2 Using COSP,Atmospheric and Oceanic Science Letters,5(3), 258-263, doi: 10.1080/16742834.2012.11447002.

[22]Huang, W.*, R. Wu, and J. Fang (2010), The adaptive wavelet collocation method and its application in front simulation,Advances in Atmospheric Sciences,27(3), 594-604, doi:10.1007/s00376-009-8189-1.

[23]黄文誉*，伍荣生(2009),最优差分方案，气象学报，67(6)，1069-1079.