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Fundamental Studies in Tropical Cyclone Structure & Intensity Change.

机译：热带气旋结构与基础研究的基础研究强度变化。

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LONG-TERM GOALS AND OBJECTIVES. Focusing on dynamical and thermodynamical processes germane to the hurricane s core region, the objectives of this research project are to obtain a more complete understanding of atmospheric processes governing hurricane development, structure and intensity. This year we have continued our basic research on the dynamics and thermodynamics of the hurricane eye/eyewall region, and the dry adiabatic dynamics of a hurricane-like vortex in vertical shear. We have also begun an applied research thrust, in collaboration with Dr. s N. Davidson and K. Tory of Australia s BMRC. New insight and discoveries have been advanced in all areas. These are summarized below. A New Look at the Problem of Tropical Cyclones in Vertical Shear Flow: Vortex Resiliency APPROACH. A simple model based on the Boussinesq Primitive Equations (PE), linearized about a mean barotropic vortex in gradient and hydrostatic balance is used as a baseline model for exploring the tilting behavior of tropical-cyclone-like vortices in unidirectional vertical shear flow. In our previous work (Reasor and Montgomery 2001; Schecter, Montgomery, and Reasor 2002) a self-alignment mechanism was identified which reduces departures from an upright state (i.e., the vortex tilt). The mechanism involves the projection of the vortex tilt onto vortex Rossby waves (VRWs) and their subsequent damping. The question we sought to address in this work was how this VRW damping mechanism operates when the vortex is embedded in a vertical shear flow. The linear PE model is used for acquiring a first order understanding of the basic dynamics of the vortex-shear interaction. It is well known, however, that for a given vortex strength, as the shear strength increases, the vortex crosses a threshold and irreversibly shears apart.

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作者
Montgomery, M. T.;
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年度 2003
页码 1-9
总页数 9
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Tropical cyclones; Base lines; Damping; Dynamics; Embedding; Equations; Gradients; Hurricanes; Hydrostatics; Intensity; Interactions; Linearity; Models; Rossby waves; Self operation; Shear flow; Shear properties; Shear strength; Strength(general); Subtropical regions; Thermodynamics; Vertical orientation; Vortices;

机译：热带气旋;基线;阻尼;动力学;嵌入;方程;梯度;飓风;流体;强度;相互作用;线性;模型; Rossby波;自我操作;剪切流;剪切特性;剪切强度;强度（一般）;亚热带地区;热力学;垂直方向;涡流;

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专利

1. Numerical study on the effects of sea surface temperature on tropical cyclone intensity- part I: numerical experiment of the tropical cyclone intensity related to SST [J] . Duan Yihong, Qin Zenghao, Gu Jianfeng Acta Meteorologica Sinica . 1998,第2期

机译：海面温度对热带气旋强度影响的数值研究-第一部分：与SST有关的热带气旋强度的数值试验
2. NUMERICAL STUDY ON THE EFFECTS OF SEA SURFACE TEMPERATURE ON TROPICAL CYCLONE INTENSITY-PART I:NUMERICAL EXPERIMENT OF THE TROPICAL CYCLONE INTENSITY RELATED TO SST [J] . 端义宏, 秦曾灏, 顾建峰, 气象学报：英文版 . 1998,第002期

机译：海表面温度对热带气旋强度影响的数值研究 - I：热带气旋强度与SST的数值实验
3. A study of the impacts of vertical diffusion on the structure and intensity of the tropical cyclones using the high-resolution HWRF system [J] . Gopalakrishnan S.G., Marks Jr. F., Zhang J.A., Journal of the Atmospheric Sciences . 2013,第2期

机译：高分辨率HWRF系统研究垂直扩散对热带气旋结构和强度的影响
4. Study on Index Model of Tropical Cyclone Intensity Change Based on Projection Pursuit and Evolution Strategy [C] . Huantong Geng, Jiaqing Sun, Wei Zhang, IEEE Symposium Series on Computational Intelligence . 2015

机译：基于投影寻踪和演化策略的热带气旋强度变化指标模型研究
5. Tropical cyclone inner core structure and intensity change. [D] . Musgrave, Kate D. 2011

机译：热带气旋内芯结构和强度变化。
6. Enhanced intensity of global tropical cyclones during the mid-Pliocene warm period [O] . Qing Yan, Ting Wei, Robert L. Korty, 2016

机译：在上新世中期暖期期间全球热带气旋强度增加
7. Review of the study entitled amp;#8220;Tropical cyclones vertical structure from GNSS radio occultation: an archive covering the period 2001amp;#8211;2018amp;#8221; by Elamp;#380;bieta Lasota et al [O] . 2020

机译：审查研究标题＆＃8220;来自GNSS无线电掩星的热带气旋垂直结构：覆盖2001年期间的档案＆＃8211; 2018＆＃8221;由El＆＃380; Bieta Lasota等
8. Fundamental Studies In Tropical Cyclone Structure & Intensity Change. [R] . Montgomery, M. T. 2002

机译：热带气旋结构和强度变化的基础研究。

Fundamental Studies in Tropical Cyclone Structure & Intensity Change.

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