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投稿时间:2023-06-19 修订日期:2024-06-18
投稿时间:2023-06-19 修订日期:2024-06-18
中文摘要: 利用非静力中尺度WRF模式对2020年第8号台风巴威北上登陆前后过程进行了数值模拟,结合观测数据对模拟结果进行了验证,并利用模拟输出的高分辨率资料,分析了“巴威”登陆前后的天气环流背景、环境场以及结构特征变化,研究其登陆后快速减弱衰亡的原因。结果表明:“巴威”受中纬度西风槽前西南气流引导,登陆前位于高空急流入口区右侧,高空辐散场有利于台风环流维持,而北上登陆后干冷空气侵入台风中心和强的环境风垂直切变是其丧失结构特征并迅速减弱的主要原因。登陆后,台风北侧高空急流减小和高空辐散减弱,在这种不利的高层环流条件下,一方面强的环境风垂直切变,特别是中高层环境风垂直切变加大了高层暖中心的暖空气频散,使得热量不能集中从而破坏高层暖心结构;另一方面下沉的冷空气从西北侧低层入侵到台风中心,破坏了台风垂直结构,暖心高度降低并向东北倾斜,台风逐渐失去其结构特征而迅速减弱衰亡。同时登陆后水汽供应不足也不利于台风的维持。
中文关键词: 台风巴威,登陆,快速减弱,数值模拟,诊断分析
Abstract:To study the causes for rapid weakening and dissipation of Typhoon Bavi (No.2008) after its landfall in the north, in this study a numerical simulation is carried out with the non-hydrostatic mesoscale model WRF, and the simulated results are verified by the observation data. Furthermore, based on the high-resolution simulation results, the changes of the weather circulation background, ambient field and structural characteristics of Typhoon Bavi before and after its landfall are analyzed. The results indicate that “Bavi” was guided by the southwest airflow ahead of the mid-latitude westerly trough, and was located on the right side of the upper-level jet entrance area before its landfall. The divergence field at the upper level was conducive to maintaining the typhoon circulation. However, after its landfall, the intrusion of dry and cold air into the center of typhoon and the strong vertical wind shear were the main reasons for its loss in structure features and rapid weakening. After its landfall, the upper-level jet on the north side of typhoon decreased and the upper-level divergence weakened. Under such unfavorable upper-level circulation conditions, on the one hand, the strong vertical wind shear, especially from middle to high levels, increased the dispersion of warm air from the high-level warm core, which made the heat unable to concentrate and destroyed the upper warm core structure. On the other hand, the sinking cold air invaded the center of typhoon from the low level on the northwest side, and the vertical structure of “Bavi” was destroyed, then the height of warm core decreased and tilted to the northeast, so “Bavi” dissipated rapidly after its gradual loss of structure features. At the same time, insufficient water vapor supply after the landfall of “Bavi” was not good for its maintenance.
文章编号: 中图分类号:P456,P457 文献标志码:
基金项目:中国气象局沈阳大气环境研究所和东北冷涡重点开放实验室联合开放基金重点基金项目(2022SYIAEKFZD01、2021SYIAEKFZD03、2024SYIAEKFZD05)、辽宁省气象局核心攻关项目(LNCP202204)、国家重点研发计划(2018YFC1506801)、辽宁省应用基础研究计划项目(2023JHZ101300090)共同资助
引用文本:
崔锦,张爱忠,朴贞淑,李得勤,田莉,易雪,焦敏,2024.2008号台风巴威北上登陆后快速减弱原因分析[J].气象,50(11):1317-1330.
CUI Jin,ZHANG Aizhong,PARK Jungsuk,LI Deqin,TIAN Li,YI Xue,JIAO Min,2024.Analysis on Rapid Weakening of Typhoon Bavi (No.2008) After Its Landfall Northward[J].Meteor Mon,50(11):1317-1330.
崔锦,张爱忠,朴贞淑,李得勤,田莉,易雪,焦敏,2024.2008号台风巴威北上登陆后快速减弱原因分析[J].气象,50(11):1317-1330.
CUI Jin,ZHANG Aizhong,PARK Jungsuk,LI Deqin,TIAN Li,YI Xue,JIAO Min,2024.Analysis on Rapid Weakening of Typhoon Bavi (No.2008) After Its Landfall Northward[J].Meteor Mon,50(11):1317-1330.