%0 Journal Article
%T 2024年7月30日乌鲁木齐国际机场一次雷暴天气分析
Analysis of a Thunderstorm Weather at Urumqi International Airport on July 30, 2024
%A 张明旭
%A 刘倩
%A 王清平
%A 李静轩
%J Open Journal of Nature Science
%P 320-328
%@ 2330-1732
%D 2025
%I Hans Publishing
%R 10.12677/ojns.2025.132033
%X 利用常规高空地面、FNL 0.25˚ × 0.25˚再分析资料、地面加密自动站、多普勒雷达及卫星云图资料对2024年7月30日发生乌鲁木齐国际机场的一次雷暴天气进行环流形势分析、环境场诊断和触发机制研究分析,发现:(1) 此次雷雨天气过程是在500 hPa高空偏西气流,有短波活动配合700、850 hPa一定的动力条件、水汽条件和层结不稳定条件共同作用下产生的。(2) 低层水汽不断辐合加强,为雷雨天气提供一定的水汽条件,中层强盛的上升运动有利于雷暴云团的快速发展,沿天山一带上空的K指数揭示大气环境场的不稳定层结,这为雷暴的持续发展提供了较好的能量条件。(3) 此次持续雷雨天气主要由多个对流云团造成,地面风场辐合线的存在是对流云团的初生、发展和演变的触发机制。(4) 多普勒雷达与卫星云图协同监测可提前1~2小时预警雷暴移动路径,较单一数据源预报时效提升40%。本研究通过多源数据融合揭示了乌鲁木齐地区雷暴触发机制的独特性,为机场对流预报提供新思路。
By using conventional upper-air and surface data, FNL 0.25˚ × 0.25˚ re-analysis data, surface intensive automatic weather stations, Doppler radar data and satellite cloud imagery data, an analysis of the circulation pattern, environmental field diagnosis and triggering mechanism of a thunderstorm that occurred at Urumqi International Airport on July 30, 2024 was carried out. The findings are as follows: (1) This thunderstorm weather process was generated under the combined effect of the westerly flow at 500 hPa in the upper-air, with the cooperation of short-wave activities, and certain dynamic, water-vapor and stratification instability conditions at 700 hPa and 850 hPa. (2) The continuous convergence and enhancement of low-level water vapor provided certain water-vapor conditions for the thunderstorm weather. The strong upward motion in the middle layer was conducive to the rapid development of thunderstorm cloud clusters. The K-index over the area along the Tianshan Mountains revealed the unstable stratification of the atmospheric environmental field, which provided favorable energy conditions for the continuous development of thunderstorms. (3) This continuous thunderstorm weather was mainly caused by multiple convective cloud clusters. The existence of the convergence line in the surface wind field was the triggering mechanism for the initiation, development and evolution of convective cloud clusters. (4) 1~2 hours, outperforming single-data-source approaches by 40%. This study highlights the unique triggering mechanisms of thunderstorms in mountainous regions, offering insights for improving convective forecasting at airports.
%K 强对流,
%K 地面辐合线,
%K 多普勒雷达,
%K 卫星云图
Severe Convection
%K Surface Convergence Line
%K Doppler Radar
%K Satellite Cloud Imagery
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=109259