Development and maintenance of squall line in a weak vertical wind shear environment

Based on conventional observation data, automatic weather station data and CINRAD-SA Doppler radar data, we analyzed the weather background, environmental conditions, development mechanism and the gale that caused for the squall line event on 27 May 2018 in Guangxi. Results show that the cold tongue...

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Veröffentlicht in:暴雨灾害 2021-10, Vol.40 (5), p.466-473
Hauptverfasser: Meifang QU, Xiaoding YU, Mengsong NONG, Liping ZHAI, Zhenquan LAI
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Sprache:chi
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Zusammenfassung:Based on conventional observation data, automatic weather station data and CINRAD-SA Doppler radar data, we analyzed the weather background, environmental conditions, development mechanism and the gale that caused for the squall line event on 27 May 2018 in Guangxi. Results show that the cold tongue at 500hPa superimposed with the warm ridge in the lower layer built a strong stratification instability structure, with a high value of CAPE, which provided a favorable environment for the development of the squall line. The mesoscale convergence line located at the coast of Guangxi was the trigger mechanism for the initial convection system that finally leaded to the formation of the squall line system. The warm and moist inflow from the lower layer of the squall line reached the top of the storm and diverged. The cold and dry air inflow from the rear of the middle layer strengthened the downdraft within the squall line. The downdraft outflow formed convergence on the front side of the storm to trigger new convec
ISSN:2097-2164
DOI:10.3969/j.issn.1004-9045.2021.05.003