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Simulating Heavy Meiyu Rainfall: A Note on the Choice of the Model Microphysics Scheme
Advances in Meteorology ( IF 2.9 ) Pub Date : 2020-11-29 , DOI: 10.1155/2020/8827071 Zhimin Zhou 1 , Yi Deng 2 , Yang Hu 1 , Zhaoping Kang 1
Advances in Meteorology ( IF 2.9 ) Pub Date : 2020-11-29 , DOI: 10.1155/2020/8827071 Zhimin Zhou 1 , Yi Deng 2 , Yang Hu 1 , Zhaoping Kang 1
Affiliation
Better simulations and predictions of heavy rainfall associated with Meiyu fronts are critical for flood management in the Yangtze River Valley, China. This work systematically evaluates and compares the performances of three microphysics schemes in Weather Research and Forecasting (WRF) Model with regard to simulating properties of a classic Meiyu rainstorm in central China which occurred during a 30-hour period in July 2016, including spatial distribution, rain rate PDF, and lifecycle behavior of local rainfall. Model simulations are validated using both in situ and remote sensing observations. It is found that all three schemes capture the overall spatial distribution of precipitation and the average rainfall intensity changes more rapidly with time in the simulation than in the observation. Further insights are gained through an examination of the budget terms of raindrop and ice-phase hydrometeors in the model. Accretion of cloud droplets by raindrops and melting of ice-phase hydrometeors are the major source of rainwater. Bergeron and riming processes are found to play a prevailing role in the growth of ice-phase hydrometeors in Meiyu rainfall. Large differences in the parameterization of riming process in different schemes lead to significant differences in the simulated growth of ice-phase hydrometeors.
更新日期:2020-12-01
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