Unusual Evolution of the Multiple Eyewall Cycles in Super Typhoon Hinnamnor(2022)

被引：0

作者：

Hui WANG ^{[1
]}

Yubin YU ^{[2
,1
]}

Dajun ZHAO ^{[1
,3
]}

Tzu-Hsiung YEN ^{[4
]}

Hongxiong XU ^{[1
]}

Qian WANG ^{[1
,5
]}

Zhiqiang CAO ^{[6
]}

机构：

[1] State Key Laboratory of Severe Weather,Chinese Academy of Meteorological Sciences,China Meteorological Administration

[2] China Meteorological Administration Training Centre

[3] Shanghai Typhoon Institute,China Meteorological Administration

[4] Department of Atmospheric Sciences,“National” Taiwan University

[5] National Meteorological Centre,China Meteorological Administration

[6] Key Laboratory of Radiometric Calibration and Validation for Environmental Satellites,National Satellite Meteorological Center/National Center for Space Weather,China Meteorological Administration

来源：

Journal of Meteorological Research | 2023年 / 37卷 / 04期

基金：

中国国家自然科学基金;

关键词：

D O I：

暂无

中图分类号：

P444 [热带气象];

学科分类号：

0706 ; 070601 ;

摘要：

Hinnamnor was the first super typhoon in the western North Pacific basin in 2022. It had several prominent characteristics, such as rapid intensification after its formation, three eyewall cycles, and a sudden recurvature of its track.Based on multi-source observational and reanalysis datasets, two secondary eyewall formation (SEF) cycles occurred during Super Typhoon Hinnamnor’s lifetime. The first SEF happened near the time when Hinnamnor achieved its maximum intensity, and it seems that its internal dynamics dominated the SEF process after the development of shear-induced asymmetric spiral rainbands. The merger of a tropical depression with Hinnamnor led to a continuous increase in both its inner-core size and outer-core circulation, causing generation of the second SEF. It is inferred that the external and internal dynamics worked together during the second SEF process. The concentric eyewall structure maintained for approximately 84 h under the moderate vertical wind shear. Also, unique changes in intensity accompanied the two structural changes.

引用

页码：431 / 440

页数：10

共 40 条

[1] Super Typhoon Hinnamnor(2022) with a Record-Breaking Lifespan over the Western North Pacific
Qian WANG
Dajun ZHAO
Yihong DUAN
Shoude GUAN
Lin DONG
Hongxiong XU
Hui WANG
[J]. AdvancesinAtmosphericSciences, 2023, 40 (09) : 1558 - 1566
[2] Impact of the Monsoonal Surge on Extreme Rainfall of Landfalling Tropical Cyclones
Dajun ZHAO
Yubin YU
Lianshou CHEN
[J]. Advances in Atmospheric Sciences, 2021, 38 (05) : 771 - 784
[3] A modeling study of cloud physical properties of extreme and non-extreme precipitation in landfalling typhoons over China
Zhao, Dajun
Gao, Wenhua
Xu, Hongxiong
Yu, Yubin
Chen, Lianshou
[J]. ATMOSPHERIC RESEARCH, 2022, 277
[4] Xue-Song Zhu,Hui Yu,Yuqing Wang.Downwind Development in a Stationary Band Complex Leading to the Secondary Eyewall Formation in the Simulated Typhoon Soudelor (2015)[J].Monthly Weather Review,2022
[5] Kyle Ahern,Robert E. Hart,Mark A. Bourassa.Asymmetric Hurricane Boundary Layer Structure during Storm Decay. Part II: Secondary Eyewall Formation[J].Monthly Weather Review,2022
[6] Chau-Lam Yu,Anthony C. Didlake Jr.,Fuqing Zhang,Robert G. Nystrom.Asymmetric Rainband Processes Leading to Secondary Eyewall Formation in a Model Simulation of Hurricane Matthew (2016)[J].Journal of the Atmospheric Sciences,2020
[7] Yi Fan Wang,Zhe Min Tan.Outer Rainbands-driven Secondary Eyewall Formation of Tropical Cyclones Outer Rainbands-driven Secondary Eyewall Formation of Tropical Cyclones[J].Journal of the Atmospheric Sciences,2020
[8] John Molinari,Jun A. Zhang,Robert F. Rogers,David Vollaro.Repeated Eyewall Replacement Cycles in Hurricane Frances[J].Monthly Weather Review,2019
[9] Hui Wang,Yuqing Wang,Jing Xu,Yihong Duan.The Axisymmetric and Asymmetric Aspects of the Secondary Eyewall Formation in a Numerically Simulated Tropical Cyclone under Idealized Conditions on an f Plane[J].Journal of the Atmospheric Sciences,2019
[10] Anthony C Didlake Jr,Paul D Reasor,Robert F Rogers,Wen-Chau Lee.Dynamics of the Transition from Spiral Rainbands to a Secondary Eyewall in Hurricane Earl (2010)[J].Journal of the Atmospheric Sciences,2018

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