A New Closure Assumption and Formulation Based on the Helmholtz Decomposition for Improving Retrievals for Vortex Circulations from Single-Doppler Radar Observations

IF 2.8 3区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES Monthly Weather Review Pub Date : 2023-10-31 DOI:10.1175/mwr-d-23-0043.1
Satoki Tsujino, Takeshi Horinouchi, Udai Shimada
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Abstract

Abstract Doppler weather radars are powerful tools for investigating the inner-core structure and intensity of tropical cyclones (TCs). The Doppler velocity can provide quantitative information on the vortex structure in the TCs. The Generalized Velocity Track Display (GVTD) technique has been used to retrieve the axisymmetric circulations and asymmetric tangential flows in the TCs from ground-based single-Doppler radar observations. GVTD can have limited applicability to asymmetric vortices due to the closure assumption of no asymmetric radial flows. The present study proposes a new closure formulation that includes asymmetric radial flows, based on the Helmholtz decomposition. Here it is assumed that the horizontal flow is predominantly rotational and expressed with a streamfunction, but limited inclusion of wavenumber-1 divergence is available. Unlike the original GVTD, the decomposition introduces consistency along radius by solving all equations simultaneously. The new approach, named GVTD-X, is applied to analytical vortices and a real TC with asymmetric structures. This approach makes the retrieval of axisymmetric flow relatively insensitive to the contamination from asymmetric flows and to small errors in storm center location. For an analytical vortex with a wavenumber-2 asymmetry, the maximum relative error of the axisymmetric tangential wind retrieved by GVTD-X is less than 2% at the radius of the maximum wind speed. In practical applications, errors can be evaluated by comparing results for different maximum wavenumbers. When applied to a real TC, GVTD-X largely suppressed an artificial periodic fluctuation that occurs in GVTD from the aliasing of the neglected asymmetric radial flows.
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一种新的基于Helmholtz分解的闭合假设和公式,用于改进单多普勒雷达观测涡环流的反演
多普勒天气雷达是研究热带气旋内核结构和强度的有力工具。多普勒速度可以提供tc内涡结构的定量信息。应用广义速度轨迹显示技术,从地面单多普勒雷达观测资料中反演了塔台的轴对称环流和非对称切向流。由于不存在非对称径向流动的封闭性假设,GVTD对非对称涡的适用性有限。本研究提出了一个新的封闭公式,包括不对称径向流动,基于亥姆霍兹分解。这里假设水平流主要是旋转流,并以流函数表示,但波数-1散度的有限包含是可用的。与原始的GVTD不同,该分解通过同时求解所有方程来引入沿半径的一致性。该方法被命名为GVTD-X,并应用于解析涡旋和具有不对称结构的实际TC。这种方法使得反演轴对称流对非对称流的污染相对不敏感,对风暴中心定位误差较小。对于波数为2的解析涡旋,在最大风速半径处,GVTD-X反演的轴对称切向风最大相对误差小于2%。在实际应用中,可以通过比较不同最大波数的结果来评估误差。当应用于实际TC时,GVTD- x在很大程度上抑制了GVTD中由于被忽略的非对称径向流混叠而产生的人为周期性波动。
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来源期刊
Monthly Weather Review
Monthly Weather Review 地学-气象与大气科学
CiteScore
6.40
自引率
12.50%
发文量
186
审稿时长
3-6 weeks
期刊介绍: Monthly Weather Review (MWR) (ISSN: 0027-0644; eISSN: 1520-0493) publishes research relevant to the analysis and prediction of observed atmospheric circulations and physics, including technique development, data assimilation, model validation, and relevant case studies. This research includes numerical and data assimilation techniques that apply to the atmosphere and/or ocean environments. MWR also addresses phenomena having seasonal and subseasonal time scales.
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