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浙江地区一次飑线大风的观测与机理分析

刘亚楠明杰黄旋旋顾思南

气象科学2026，Vol.46Issue(2)：139-148,10.

气象科学2026，Vol.46Issue(2)：139-148,10.DOI:10.12306/2025jms.0028

浙江地区一次飑线大风的观测与机理分析

Observation and mechanism analysis of a squall line gale in Zhejiang region

刘亚楠 ¹明杰 ²黄旋旋 ³顾思南⁴

作者信息

1. 南京大学大气科学学院/中尺度灾害性天气教育部重点实验室,南京 210023
2. 南京大学大气科学学院/中尺度灾害性天气教育部重点实验室,南京 210023||中国气象局—南京大学天气雷达及资料应用联合开放实验室,南京 210023||南京大学连云港高新技术研究院,江苏连云港 222000
3. 浙江省气象台,杭州 310002
4. 宁波市生态环境气象中心,浙江宁波 315048
折叠

摘要

Abstract

This study analyzes a squall line event that occurred in northern Zhejiang Province on June 24,2022,using ERA5(the fifth generation ECMWF Re-analysis,ERA5)reanalysis fields from the European Centre for Medium-range Weather Forecasts(ECMWF),surface meteorological observations,sounding data,dual-polarization radar data and analysis results from the Variational Doppler Radar Analysis System(VDRAS).The synoptic background of this squall line event included:an upper-tropospheric jet divergence zone existed in the upper troposphere,a mid-level trough guiding cold air southward,and a low-level jet provided sufficient moisture supply.Additionally,a large Convective Available Potential Energy(CAPE)increased convective potential,while a dry layer in the mid-troposphere contributed to the favorable environment for the occurrence of the wind event.Dual-polarization radar observations revealed the convection system manifested as a merging bow echo,where the squall line merged with forward convective cell and subsequently form the bow-shaped structure.The bow echo exhibited reflectivity values exceeding 55 dBZ,with a distinct weak echo region in the rear.The VDRAS wind field indicated that there was a high-value area of horizontal wind speed behind the intense radar echoes.As the system developed and matured,the rear inflow jet strengthened and descended,leading to surface wind acceleration.Quantification of the factors contributing to the downward motion through the vertical momentum equation revealed that the downdraft was primarily dominated by the buoyancy term.Dry intrusion caused the temperature and humidity of the lower-level air mass to decrease,generating negative buoyancy,which enhanced the downward momentum transfer of the rear inflow jet and ultimately increased the intensity of the surface outflow.The synergy between the rear inflow jet and the dry intrusion was identified as the key mechanism for the strong surface winds.

关键词

飑线/VDRAS系统/后侧入流急流/干侵入

Key words

squalll ine/VDRAS system/rear inflow jet/dry intrusion

分类

天文与地球科学

引用本文复制引用

刘亚楠,明杰,黄旋旋,顾思南..浙江地区一次飑线大风的观测与机理分析[J].气象科学,2026,46(2):139-148,10.

基金项目

国家自然科学基金资助项目(U2242204) （U2242204）

浙江省科技厅科技资助项目(2022C03150) （2022C03150）

浙江省自然科学基金资助项目(LZJMZ23D050006 （）

LZJMD23D050001 （）

LZJMY24D050003) （）

气象科学

ISSN：1009-0827

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