###
DOI:
本文二维码信息
一次纬向暴雨过程的湿对称不稳定与锋生分析
邓承之1, 张亚萍1, 方德贤1, 翟丹华1, 吴钲2, 何跃1
(1.重庆市气象台;2.重庆市气象科学研究所)
Analysis on Moist Symmetric Instability and Frontogenesis of One Zonal Torrential Rain
DENG Chengzhi1, ZHANG Yaping1, FANG Dexian1, ZHAI Danhua1, WU Zheng2, HE Yue1
(1.Chongqing Meteorological Office;2.Chongqing Institute of Meteorology and Science)
摘要
相似文献
本文已被:浏览 71次   下载 14
投稿时间:2018-10-16    修订日期:2019-09-11
中文摘要: 利用常规观测、加密自动站、NCEP/NCAR(1°×1°)再分析及WRF数值模拟资料,诊断分析了2016年6月27日―28日重庆南部大暴雨天气的纬向雨带及湿对称不稳定特征,结果表明:(1)纬向雨带形成并发展于低空湿对称不稳定区,纬向雨带形成前,湿对称不稳定逐渐增强,纬向雨带形成后,湿对称不稳定缓慢释放,湿对称不稳定的持续释放促进了纬向雨带的持续发展。(2)纬向锋生效应的增强,引起低空湿位涡水平分量MPV2的负值增长,为湿对称不稳定的增强及维持提供了有利条件,可能是此次暴雨过程中纬向雨带生成及持续发展的重要机制。
Abstract:Used conventional observation data, automatic station data, NCEP/NCAR (1°×1°) reanalysis data and WRF simulation data, diagnosis and analysis on the characteristics of the zonal rainband and its moist symmetric instability in the torrential rain occurred in Southern Chongqing and surrounding places from June 27 to June 28 in the year of 2016, show that: (1) The zonal rain belt is formed in the area with low level moist symmetric instability. The moist symmetric instability increases before the formation of the zonal rain belt, and releases gradually after the formation. The sustained release of moist symmetric instability promotes the continuous development of zonal rainband. (2) The negative increase in horizontal component of moist potential vorticity MPV2 caused by the increase of zonal frontogenesis, is beneficial to the enhancement and maintenance of moist symmetric instability, and is probably the important mechanism of the formation and continuous development of the zonal rain belt in the torrential rain.
文章编号:201810160458     中图分类号:    文献标志码:
基金项目:重庆市基础研究与前沿探索项目(cstc2018jcyjAX0434)、重庆市气象局灾害性天气预报核心技术创新团队项目(ZHCXTD-201806)与重庆市风暴尺度集合数值预报系统建设项目
引用文本:
邓承之,张亚萍,方德贤,翟丹华,吴钲,何跃,0.[en_title][J].Meteor Mon,():-.
DENG Chengzhi,ZHANG Yaping,FANG Dexian,ZHAI Danhua,WU Zheng,HE Yue,0.Analysis on Moist Symmetric Instability and Frontogenesis of One Zonal Torrential Rain[J].Meteor Mon,():-.