典型文献
The Roles of Barotropic Instability and the Beta Effect in the Eyewall Evolution of Tropical Cyclones
文献摘要:
Diabatic heating by convection in the eyewall often produces an annular region of high potential vorticity (PV) around the relatively low PV eye in a strong tropical cyclone (TC). Such a PV ring is barotropically unstable and can encourage the exponential growth of PV waves. In this study, such instability and the subsequent nonlinear evolution of three TC-like vortices having PV rings with different degrees of hollowness on an f-plane are first examined using an unforced, inviscid shallow-water-equation model. Results show that the simulated eyewalls evolve similarly to those in the nondivergent barotropic model. It is also found that the polygonal eyewall structure can be decomposed into vortex Rossby waves (VRWs) of different wavenumbers with different amplitudes, allowing for wave-wave interactions to produce complicated behaviors of mesovortices in the TC eyewall. The same set of PV rings has been examined on a beta-plane. Although the beta effect has been rendered unimportant to the eyewall evolution due to the relatively small scale of the inner-core circulation, this study shows that the beta effect may erode the coherent structure of mesovortices in the eyewall of an initially hollow PV-ring vortex. Mesovortices modeled on the beta-plane with a greater beta parameter tend to experience an earlier breakdown and enhanced radial gradients of the basic-state (azimuthally mean) angular velocity, followed by wave-wave, wave-flow interactions, leading to earlier merger and axisymmetrization processes. This result implies that the beta effect could be one of the forcings that shorten the lifetime of quasi-steady mesovortices in the eyewall of real TCs.
文献关键词:
中图分类号:
作者姓名:
Jie JIANG;and Yuqing WANG
作者机构:
Department of Atmospheric Sciences,University of Hawaii at Manoa Honolulu,Hawaii 96822,USA;International Pacific Research Center and Department of Atmospheric Sciences,University of Hawaii at Manoa Honolulu,Hawaii 96822,USA
文献出处:
引用格式:
[1]Jie JIANG;and Yuqing WANG-.The Roles of Barotropic Instability and the Beta Effect in the Eyewall Evolution of Tropical Cyclones)[J].大气科学进展(英文版),2022(11):1800-1815
A类:
Barotropic,Eyewall,Diabatic,eyewall,barotropically,hollowness,unforced,eyewalls,nondivergent,VRWs,mesovortices,unimportant,Mesovortices,axisymmetrization
B类:
Roles,Instability,Beta,Effect,Evolution,Tropical,Cyclones,heating,convection,often,produces,annular,region,high,potential,vorticity,PV,around,relatively,strong,cyclone,Such,unstable,can,encourage,exponential,growth,waves,this,study,such,instability,subsequent,nonlinear,evolution,three,like,having,rings,different,degrees,plane,are,first,examined,using,inviscid,shallow,water,equation,Results,that,simulated,evolve,similarly,those,It,also,found,polygonal,structure,decomposed,into,vortex,Rossby,wavenumbers,amplitudes,allowing,interactions,complicated,behaviors,same,set,has,been,beta,Although,effect,rendered,due,small,scale,inner,core,circulation,shows,may,erode,coherent,initially,modeled,greater,parameter,tend,experience,earlier,breakdown,enhanced,radial,gradients,basic,state,azimuthally,mean,angular,velocity,followed,flow,leading,merger,processes,This,result,implies,could,forcings,shorten,lifetime,quasi,steady,real,TCs
AB值:
0.493195
相似文献
机标中图分类号,由域田数据科技根据网络公开资料自动分析生成,仅供学习研究参考。
