台风贝碧嘉(1816)外围云系结构与降水特征  被引量：4

作　　者：毛志远 付丹红[3] 黄彦彬 李光伟 敖杰 蔡杏富 Mao Zhiyuan;Fu Danhong;Huang Yanbin;Li Guangwei;Ao Jie;Cai Xingfu(Weather Modification Center of Hainan Province,Haikou 570203;Key Laboratory of South China Sea Meteorological Disaster Prevention and Mitigation of Hainan Province,Haikou 570203;Institute of Atmospheric Physics,Chinese Academy of Sciences,Beijing 100029;Sansha Meteorological Service of Hainan,Sansha 573100)

机构地区：[1]海南省人工影响天气中心,海口570203 [2]海南省南海气象防灾减灾重点实验室,海口570203 [3]中国科学院大气物理研究所,北京100029 [4]海南省三沙市气象局,三沙573100

出　　处：《应用气象学报》2022年第5期604-616,共13页Journal of Applied Meteorological Science

基　　金：国家自然科学基金项目(41865009);海南省自然科学基金项目(122QN424,420RC754,421QN372);海南省气象局项目(hnqxSJ202121)。

摘　　要：选取海南省海口站和屯昌站对比分析台风贝碧嘉(1816)外围云系结构和降水特征。结果表明:台风贝碧嘉(1816)影响海南岛期间,随着降水云系的发展,海口地区对流性云系发展加强,屯昌地区表现为层状云降水,两个站点雨滴谱特征存在一定的差异,海口站和屯昌站的降水均以直径小于1 mm的雨滴为主,其中屯昌站直径1~3 mm的雨滴对雨强的贡献最大;海口站雨滴数浓度随雨滴直径增大而减小,但对雨强的贡献随之增大,直径大于3 mm的雨滴对总雨强的贡献达到56.61%;海口站的特征参量曲线在时间上分布不均,表现为阵性强降水,而屯昌站的特征参量曲线起伏不大,降水比海口站小且均匀、连续;在雨滴谱演变上,海口站始终保持单峰型,屯昌站以单峰为主伴随多峰出现,当雨强增大时,两站直径1 mm范围内的雨滴数浓度随之增加,谱型迅速拓宽,大粒径雨滴出现且增多,其中海口站直径3 mm以上的雨滴端增幅更明显;两个站点雨滴谱符合Gamma分布,形状参数和斜率参数满足二项式关系。Based on radar and raindrop disdrometer observations,the evolution of microphysical features and raindrop size distribution of the precipitation in different peripheral cloud system structures during Typhoon Bebinca(1816)affecting Hainan Island are compared at Haikou and Tunchang stations.The results show that,convective cloud system in Haikou area strengthens with the development of precipitation cloud system,while in Tunchang area stratiform cloud precipitation is dominant,which causes some differences between raindrop size distributions.During the entire precipitaion process,the average raindrop size distribution of Haikou and Tunchang stations are unimodal spectrum,the number concentration of 1 mm raindrops at Tunchang Station is larger,while there are more large raindrops at Haikou Station.The raindrops observed at Haikou and Tunchang stations are mainly with a diameter of less than 1 mm,and the raindrop number concentration accounts for over 50% of the total concentration,but its contribution to the rain intensity is 3.7% and 17.15%,respectively.The raindrops with a diameter of 1-3 mm at Tunchang Station contributes the most to the rain intensity,reaching 79.84%.The raindrop number concentration of Haikou Station decreases with the increase of raindrop diameter,but its contribution to the rainfall intensity increases,and the contribution of raindrops with diameter greater than 3 mm to the total rainfall intensity reaches 56.61%.Comparing the evolution of microphysical parameters,the characteristic parameter curve of Haikou Station is unevenly distributed in time,showing paroxysmal heavy precipitation,while the characteristic parameter curve of Tunchang Station has little fluctuation,and the precipitation is smaller,uniform,and continuous than that of Haikou Station.In the time evolution of raindrop size distribution,Haikou Station is always in the form of single peak with a wider spectrum,while at Tunchang Station it is mainly single peak,with fewer double peaks.When the rainfall intensity increases,the rai

关 键 词：台风贝碧嘉(1816) 云系结构 雨滴谱 GAMMA分布 

分 类 号：P426.6[天文地球—大气科学及气象学] P444