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湖南“6.19"暴雨过程的中尺度特征分析
引用本文:陈沐希,冯家兄,方夏馨,秦玉梅,罗娟. 湖南“6.19"暴雨过程的中尺度特征分析[J]. 成都信息工程学院学报, 2013, 0(6): 665-671
作者姓名:陈沐希  冯家兄  方夏馨  秦玉梅  罗娟
作者单位:[1]重庆市城口县气象局,重庆城口405999 [2]重庆市巫溪县气象局,重庆巫溪405800 [3]云南省昆明市气象局,云南昆明650000 [4]四川省合江县气象局,四川合江646200 [5]重庆市气象台,重庆渝北401147
摘    要:针对2010年6月19~20日湖南一次大范围暴雨过程,利用常规观测资料、FY-2E卫星TBB资料、NCEP1°×1°格点资料及WRF模式输出的高分辨率资料,采用数值模拟和诊断分析相结合的方法,综合分析了此次暴雨过程.结果表明:东移短波槽及低层低涡是此次暴雨的主要影响系统;卫星资料分析显示,α中尺度对流云团前部不断有β中尺度扰动分裂和发展;WRF模式模拟结果表明,此次大范围暴雨过程是多尺度系统影响的结果,在有利的大尺度环流背景下,激发了中小尺度对流系统的活动,导致强降水带中出现了多个中尺度扰动和与此对应的中尺度雨团有组织的活动,是暴雨发生的主要原因;中尺度雨团对应着强上升气流柱、正涡度柱和低层强辐合、高层强辐散的散度结构.

关 键 词:气象学  诊断分析  暴雨  中尺度系统  数值模拟

Characteristics of the Mesoscale System in 6.19 Heavy Rain Process in Hunan Province
CHEN Mu-xiChengkou Meteorological Bureau of Chongqing city,Chengkou,China FENG Jia-xiongWuxi Meteorological Bureau of Chongqing city,Wuxi,China FANG Xia-xinKunming Meteorological Bureau of Yunnan Province,Kunming,China QIN Yu-meiHejiang Meteorological of Sichuan Province City,Hejiang,China LUO Juan. Characteristics of the Mesoscale System in 6.19 Heavy Rain Process in Hunan Province[J]. Journal of Chengdu University of Information Technology, 2013, 0(6): 665-671
Authors:CHEN Mu-xiChengkou Meteorological Bureau of Chongqing city  Chengkou  China FENG Jia-xiongWuxi Meteorological Bureau of Chongqing city  Wuxi  China FANG Xia-xinKunming Meteorological Bureau of Yunnan Province  Kunming  China QIN Yu-meiHejiang Meteorological of Sichuan Province City  Hejiang  China LUO Juan
Affiliation:CHEN Mu-xi(Chengkou Meteorological Bureau of Chongqing city, Chengkou 405999, China) FENG Jia-xiong(Wuxi Meteorological Bureau of Chongqing city,Wuxi 405800, China) FANG Xia-xin(Kunming Meteorological Bureau of Yunnan Province, Kunming 650000, China) QIN Yu-mei(Hejiang Meteorological of Sichuan Province City , Hejiang 646200, China) LUO Juan(Chongqing Meteorological Observatory, Chongqing 401147, China)
Abstract:Based on a heavy rain process in Hunan during 19-20 June 2010,the high spatial-temporal data on Temperature of Black Bold observed by FY-2E satellite,NCEP 1° × 1°grid data and the high-resolution output from WRF model are used to analyze the structure and evolution of the mesoscale systems.The major conclusions as follows:East short-wave trough and low-level vortex are the main influencing systems of the rainstorm process.Analysis of satellite data shows that the meso-β scale system generated and developed from the meso-α scale convective cloud cluster front.The result of WRF model simulation is consistent with the fact,the multiscale systems lead to the wide range of torrential rain process.In situation of favorable large scale circulation,mesoscale convective systems are activated,and result in many mesoscale disturbances and mesoscale rain clusters regular motion,that is the main cause for rainstorm process.The strong development of the mesoscale rain clusters are supported by the favorable mesoscale dynamic configuration,which corresponding to the strong updrafts column,a positive vorticity column coupled with strong lower-level convergence and upper-level divergence.
Keywords:meteorology  diagnostic analysis  rainstorm  the mesoscale system  numerical simulation
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