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台风利奇马(1909)双眼墙特征及长时间维持机制 被引量:9

Characteristics and Mechanisms of Long-lived Concentric Eyewalls in Typhoon Lekima in 2019
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摘要 利用CIMSS微波卫星产品和多普勒天气雷达资料,分析超强台风利奇马(1909)的长时间双眼墙特征,并采用集合卡尔曼滤波方法同化雷达径向风资料,诊断利奇马双眼墙的三维结构演变特征。结果表明:在双眼墙演变过程初期,受强垂直风切变和中高层干空气入侵的影响,外眼墙对流减弱,呈非对称特征。Sawyer-Eliassen方程诊断结果显示:台风利奇马(1909)内、外眼墙次级环流之间的相互作用不明显,不同于发生眼墙替换过程的台风,其外眼墙处非绝热加热引起的下沉运动发生在内眼的眼心,内眼墙的上升运动并未受到外眼墙次级环流抑制。另外,在强垂直风切变条件下,非对称的外眼墙不能持续增强收缩并取代内眼墙,因此双眼墙结构得以长时间维持。可见,台风利奇马(1909)外眼墙的非对称结构和特殊的次级环流分布是其双眼墙能够长期维持的重要原因。 The structure change of typhoon eyewall has important influences on tropical cyclone(TC)intensity,and it brings great difficulties to TC intensity forecast.Compared to the TC with only one eyewall,the dynamic and physical processes controlling the intensity change of concentric eyewalls are much more complex.Strengthening the research on this type of typhoons is conducive to improve the understanding of the structure and intensity change of TC.Recently,the process of eyewall replacement cycle(ERC)is well understood,but the mechanism of concentric eyewalls maintenance(CEM)remains unclear.Therefore,it is necessary to use a variety of observation data,numerical model,and data assimilation methods to analyze real typhoons to further explore the mechanism of CEM.The evolution of concentric eyewalls in Typhoon Lekima in 2019 is analyzed with CIMSS microwave satellite images,Wenzhou Doppler radar in China and Ishigaki radar in Japan.Observational analysis indicates that secondary eyewall formation(SEF)happens at about 0600 UTC 8 August 2019.Unlike most concentric-eyewall typhoons,Typhoon Lekima has not undergone ERC,and the concentric eyewalls in Typhoon Lekima maintains for 35 hours.Meanwhile,a numerical experiment of Typhoon Lekima is performed using a WRF-based ensemble Kalman filtering(EnKF)data assimilation system.The evolution process of Typhoon Lekima is reproduced by the results of the analysis after assimilating the Ishigaki radar radial wind,and the simulated track,intensity,and structure are basically consistent with observational analysis.Therefore,based on the EnKF analysis fields,evolution characteristics of three-dimensional eyewalls structure in Typhoon Lekima are further analyzed.The results show that,in the initial stage of SEF,the inertial stability of the middle and lower layers of typhoon is high,and the thermal conditions of the environmental are conducive to the development of Typhoon Lekima.However,due to the strong vertical wind shear(VWS)and dry air intrusion in the mid-upper level,the outer eyewall has a weakening and asymmetric process.In addition,the maintenance mechanism of persistent concentric eyewalls is studied from the perspective of transverse circulation.The Sawyer-Eliassen diagnose is performed to investigate the transverse circulation and to reveal that the interference between the convection/subsidence couplet of the inner and outer eyewalls transverse circulation is not obvious so that the convection of the inner eyewall is not inhibited by the outer eyewall,and the inner eyewall maintains.Under the condition of strong VWS,the asymmetric outer eyewall cannot continuously enhance or contract and replace the inner eyewall,the structure of concentric eyewalls can be maintained for a long time.The structure of the outer eyewall and the distribution of transverse circulation in Typhoon Lekima play an important role in the maintenance of concentric eyewalls.
作者 刘涛 端义宏 冯佳宁 王慧 Liu Tao;Duan Yihong;Feng Jianing;Wang Hui(State Key Laboratory of Severe Weather,Chinese Academy of Meteorological Science,Beijing 100081)
出处 《应用气象学报》 CSCD 北大核心 2021年第3期289-301,共13页 Journal of Applied Meteorological Science
基金 国家自然科学基金项目(61827901,41775048)
关键词 台风利奇马(1909) 双眼墙 同化分析 Typhoon Lekima in 2019 concentric eyewalls assimilation analysis
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