Multi-source analysis of severe convection weather induced by a supercell storm in Hengshui

Hao Song, Yuting Zhang
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Abstract

The severe convection weather induced by a supercell storm in Hengshui from north to south on June 13th, 2018 was analyzed by using the meteorological data from MICAPS, the data of the microwave radiometer from Hengshui Meteorological Bureau, the data of wind-profiling radar in Jizhou District of Hengshui, the data of the Doppler radar in Shijiazhuang, and the data of the dual polarization radar in Raoyang County of Hengshui. The results showed thatthe process was a severe convective weather triggered by a supercell storm, which triggered by the intersection of high-level dry and cold air with low-level warm and humid air in the rear of a vortex , and was dominated by hail, thunderstorm and strong wind. Hengshui had maintained an unstable stratification with cold-dry air on the top and warm-humid air on the bottom before the storm was born. The 0°C layer and the -20°C layer were at suitable heights, thus providing a favorable environment for the occurrence and development of severe convection. The northerly wind current in the middle and upper levels had played a good role in pumping and ventilating the current, which increased the transportation of cold and dry air in the middle and upper levels, thereby further increasing the vertical wind shear in the upper and lower levels, and eventually causing the stratification to became even less stable. As the low-level shear line transited, the unstable energy was triggered, which in turn maintainedthe strength of the severe convective weather. The data of the dual-polarized radarcould better describe the particle size, particle shape, and precipitation type, as well as detect and warn of the hail area. By integrating the data of the dual-polarized radar and the Doppler radar, early warning signals of hail could be sent about 66 minutes earlier. Keywords— supercell storm, hail, microwave radiometer, wind-profiling radar, doppler radar, dual polarization radar 摘要—利用 micaps 气象资料以及衡水市气象局微 波辐射计资料、衡水市冀州区风廓线雷达资料、石 家庄市多普勒雷达资料、衡水市饶阳县双偏振雷达 资料对 2018年 6月 13日衡水市自北向南出现的一 次超级单体风暴引发强对流天气过程进行分析。结 果表明:此次过程是一次涡槽后部高层干冷空气与 低层暖湿气流交汇触发超级单体风暴引发的强对 Fourth Symposium on Disaster Risk Analysis and Management in Chinese Littoral Regions (DRAMCLR 2019) Copyright © 2019, the Authors. Published by Atlantis Press. This is an open access article under the CC BY-NC license (http://creativecommons.org/licenses/by-nc/4.0/). Advances in Intelligent Systems Research, volume 171
衡水一次超级单体风暴诱发强对流天气的多源分析
利用MICAPS气象资料、衡水市气象局微波辐射计资料、衡水市吉州区风廓线雷达资料、石家庄市多普勒雷达资料、衡水市饶阳县双极化雷达资料,对2018年6月13日一次超级单体风暴诱导的自北向南强对流天气进行了分析。结果表明:该过程为一次超级单体风暴引发的强对流天气,由高层干冷空气与低层暖湿空气在涡旋后方交汇触发,以冰雹、雷暴和强风为主。在风暴发生前,衡水一直保持着冷干空气在上、暖湿空气在下的不稳定分层。0℃层和-20℃层处于适宜高度,为强对流的发生和发展提供了有利环境。中高层偏北风气流对该气流起到了很好的抽送和通风作用,增加了中高层冷干空气的输送,从而进一步增加了上下层的垂直风切变,最终导致分层更加不稳定。低层切变线过境触发不稳定能量,维持了强对流天气的强度。双极化雷达的数据可以更好地描述冰雹的粒径、形状和降水类型,并对冰雹区域进行探测和预警。综合双极化雷达和多普勒雷达的数据,可提前66分钟发出冰雹预警信号。关键词——单体风暴、冰雹、微波辐射计、wind-profiling雷达、多普勒雷达、双极化雷达摘要——利用micaps气象资料以及衡水市气象局微波辐射计资料,衡水市冀州区风廓线雷达资料,石家庄市多普勒雷达资料,衡水市饶阳县双偏振雷达资料对2018年6月13日衡水市自北向南出现的一次超级单体风暴引发强对流天气过程进行分析。第四届中国沿海地区灾害风险分析与管理学术研讨会(DRAMCLR 2019)版权所有©2019,作者。亚特兰蒂斯出版社出版。这是一篇基于CC BY-NC许可(http://creativecommons.org/licenses/by-nc/4.0/)的开放获取文章。智能系统研究进展,第171卷
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