Forecasting severe convective storms with WRF-based RTFDDA radar data assimilation in Guangdong, China

Forecasting severe convective storms with WRF-based RTFDDA radar data assimilation in Guangdong, China

Radar data assimilation is an important method for short-term convection forecasting or nowcasting. To improve the short-term (mainly 0–3 h) precipitation forecasts for severe convective storms, an analysis nudging (Newtonian relaxation) based hydrometeor and latent heat nudging (HLHN) technique was...

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Bibliographic Details
Published in:Atmospheric research Vol. 209; pp. 131 - 143
Main Authors: Huang, Yongjie, Liu, Yubao, Xu, Mei, Liu, Yuewei, Pan, Linlin, Wang, Haoliang, Cheng, Will Y.Y., Jiang, Ying, Lan, Hongping, Yang, Honglong, Wei, Xiaolin, Zong, Rong, Cao, Chunyan
Format: Journal Article
Language:English
Published: Elsevier B.V 01-09-2018
Subjects:
Latent heating
Nowcasting
Radar data assimilation
RTFDDA
Severe convective storms
RTFDDA
Severe convective storms
Latent heating
Radar data assimilation
Nowcasting
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Summary:Radar data assimilation is an important method for short-term convection forecasting or nowcasting. To improve the short-term (mainly 0–3 h) precipitation forecasts for severe convective storms, an analysis nudging (Newtonian relaxation) based hydrometeor and latent heat nudging (HLHN) technique was developed to effectively assimilate radar reflectivity data in a Weather Research and Forecasting (WRF)-based real time four-dimensional data assimilation and short-term forecasting system (RTFDDA). The purpose of this study is to investigate the performance of the RTFDDA system with radar data assimilation (RTFDDA-RDA) with rapid-cycling forecasting applications for Shenzhen, a subtropical coastal metropolis in southern China. The RTFDDA-RDA system was run to produce hindcasts for ten severe convective storm events occurred in Guangdong region during the 2017 rainy season. Results show that, through nudging cloud hydrometeors retrieved from radar reflectivity and the associated latent heat release, RTFDDA-RDA is able to produce the meso- and convective-scale features of the convective storms in a good accuracy and improve the short-term precipitation forecasting of the convective storms. Subjective and statistical evaluation results demonstrate that RTFDDA-RDA presents a reasonable capability for forecasting convective systems with improving the initial conditions and resulting in significant improvements of precipitation forecasting skills, especially for the 0–3-h nowcasting range. The sensitivity experiments on different latent heating schemes show that, the convective-stratiform separated heating scheme has the best performance of forecasts. Finally, intercomparison of different radar data assimilation approaches will be conducted in future. •RTFDDA-RDA is capable of analyzing meso- and convective-scale features accurately.•RTFDDA-RDA presents a reasonable capability for convective storms 0–3-h forecasts.•Convective-stratiform separated heating scheme has the best forecast performance.
ISSN:0169-8095
1873-2895
DOI:10.1016/j.atmosres.2018.03.010