Finite-time circulation changes from topological rearrangement of distinguished curves and non-advective fluxes

IF 2.4 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES Tropical Cyclone Research and Review Pub Date : 2020-03-01 DOI:10.1016/j.tcrr.2019.05.001
Blake Rutherford, Timothy J. Dunkerton
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引用次数: 1

Abstract

A vorticity budget diagnoses the growth or decay of a vortex from advective transport, or non-advective fluxes such as those due to friction or vortex tilting. However, when a budget calculation is performed with respect to a fixed coordinate, errors may result from time-dependence of the flow, leading to disagreement between the vorticity tendency and the observed vorticity field. An adaptive Lagrangian coordinate resolves this problem, provided that the resulting Lagrangian structure does not become too complicated.

In this study, a numerical simulation of Hurricane Nate (2011), the vorticity tendency is evaluated along distinguished material curves. There can be no net advective flux along a closed material curve, therefore, the total circulation tendency for a material region includes only the non-advective uxes acting along its boundary. A distinguished set of material curves (DMCs) associated with a distinguished hyperbolic trajectory (DHT) form a Lagrangian topology similar to that of a cat’s eye flow or “pouch” at each Eulerian snapshot. The time-dependence of velocities allows additional regions called lobes, which are formed by the intersections of DMCs, to exchange fluid across the vortex boundary by redefining the boundary.

Because the vortex boundary changes, we refer to this redefinition of material boundary as “topological rearrangement”. The method is useful for unsteady cat’s-eye flows and more complex interactions of multiple waves, vortices and background shear. All advective changes of the vortex circulation are identified by exchanges of the lobes, and all non-advective uxes act between the vortex and either the lobes or environmental flow. The Lagrangian topology and combination of advective and non-advective uxes relative to the topology is used to describe the evolution of the circulation of Nate during its time of formation.

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有限时间环流是由不同曲线的拓扑重排和非对流通量引起的
涡度收支诊断涡旋的增长或衰减来自平流输送,或非平流通量,如摩擦或涡旋倾斜引起的通量。然而,当在固定坐标下进行预算计算时,由于流动的时间依赖性可能会产生误差,导致涡度趋势与观测到的涡度场不一致。一个自适应拉格朗日坐标解决了这个问题,前提是得到的拉格朗日结构不会变得太复杂。在本研究中,对Nate飓风(2011)进行了数值模拟,沿着不同的材料曲线评估了涡度趋势。在封闭的物质曲线上不可能存在净对流通量,因此,一个物质区域的总环流趋势只包括沿其边界作用的非对流通量。一组杰出的材料曲线(dmc)与杰出的双曲轨迹(DHT)相关联,形成拉格朗日拓扑,类似于每个欧拉快照中的猫眼流或“袋”。速度的时间依赖性允许额外的被称为叶的区域,它是由dmc的交叉点形成的,通过重新定义边界来交换流体穿过漩涡边界。由于涡旋边界发生了变化,我们将这种材料边界的重新定义称为“拓扑重排”。该方法适用于非定常猫眼流和更复杂的多波、涡旋和背景切变的相互作用。涡旋环流的所有平流变化都是通过叶的交换来确定的,而所有非平流变化都是在涡旋与叶或环境流之间发生的。利用拉格朗日拓扑以及相对于该拓扑的对流和非对流轴的组合来描述内特形成期间环流的演变。
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来源期刊
Tropical Cyclone Research and Review
Tropical Cyclone Research and Review METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
4.60
自引率
3.40%
发文量
184
审稿时长
30 weeks
期刊介绍: Tropical Cyclone Research and Review is an international journal focusing on tropical cyclone monitoring, forecasting, and research as well as associated hydrological effects and disaster risk reduction. This journal is edited and published by the ESCAP/WMO Typhoon Committee (TC) and the Shanghai Typhoon Institute of the China Meteorology Administration (STI/CMA). Contributions from all tropical cyclone basins are welcome. Scope of the journal includes: • Reviews of tropical cyclones exhibiting unusual characteristics or behavior or resulting in disastrous impacts on Typhoon Committee Members and other regional WMO bodies • Advances in applied and basic tropical cyclone research or technology to improve tropical cyclone forecasts and warnings • Basic theoretical studies of tropical cyclones • Event reports, compelling images, and topic review reports of tropical cyclones • Impacts, risk assessments, and risk management techniques related to tropical cyclones
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