地中海暴风中表面湍流通量对滚动涡旋形成的影响

IF 3.8 2区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES
Wahiba Lfarh, Florian Pantillon, Jean-Pierre Chaboureau, Sophia E. Brumer
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引用次数: 0

摘要

卷涡对整个边界层的动量、显热和湿度交换有重大影响。事实证明,在强风条件下,它们会加强海气相互作用。这就提出了海气交换如何反过来影响卷涡的问题。然而,表示极端风况下的表面湍流通量是数值天气预报的一大挑战,可能导致表面风速的巨大不确定性。本文利用大涡模拟研究了卷流对不同表面通量表示的敏感性。研究重点是地中海暴风阿德里安,卷流在这里负责将强风输送到地表。考虑到海雾的影响会增加表面热通量,并显著影响卷流形态。卷流变得更窄,延伸的高度更大,同时动量的向下输送加强,导致地表附近的风速更高。在没有动量通量的情况下,卷涡会在几分钟内消失,因为动量通量会维持卷涡组织所需的风切变。在没有显热通量的情况下,涡旋也会迅速减弱,因为显热通量可以维持涡旋发展所需的近中性分层。相比之下,潜热通量的作用很小。这些发现强调了精确表示发生在海气界面的过程的必要性,因为这些过程不仅影响热力学表面条件,而且还影响风暴内部动量的垂直传输。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Impact of Surface Turbulent Fluxes on the Formation of Roll Vortices in a Mediterranean Windstorm

Impact of Surface Turbulent Fluxes on the Formation of Roll Vortices in a Mediterranean Windstorm

Roll vortices can have a significant influence on the exchanges of momentum, sensible heat and moisture throughout the boundary layer. They have been shown to reinforce air-sea interactions under strong wind conditions. This raises the question of how air-sea exchanges can, in turn, affect the roll vortices. However, representing surface turbulent fluxes during extreme wind conditions is a major challenge in numerical weather prediction and can lead to large uncertainties in surface wind speed. The sensitivity of rolls to different representations of surface fluxes is investigated using large eddy simulations. The study focuses on Mediterranean windstorm Adrian, where rolls are responsible for the transport of strong winds to the surface. Considering the effects of sea spray increases surface heat fluxes and significantly influences the roll morphology. The rolls become narrower and extend over a greater height, while the downward transport of momentum is intensified and results in higher wind speed near the surface. Roll vortices vanish within a few minutes in the absence of momentum fluxes, which maintain the wind shear necessary for their organization. They also quickly weaken without sensible heat fluxes, which sustain the near-neutral stratification required for their development. In contrast, latent heat fluxes play a minor role. These findings emphasize the necessity of precisely representing the processes occurring at the air-sea interface, which do not only affect the thermodynamic surface conditions but also the vertical transport of momentum within the windstorm.

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来源期刊
Journal of Geophysical Research: Atmospheres
Journal of Geophysical Research: Atmospheres Earth and Planetary Sciences-Geophysics
CiteScore
7.30
自引率
11.40%
发文量
684
期刊介绍: JGR: Atmospheres publishes articles that advance and improve understanding of atmospheric properties and processes, including the interaction of the atmosphere with other components of the Earth system.
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