热带气旋模拟中大风条件下边界层质量通量的参数化

IF 3 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES Journal of the Atmospheric Sciences Pub Date : 2023-11-09 DOI:10.1175/jas-d-23-0086.1
Xiaomin Chen, Frank D. Marks
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引用次数: 0

摘要

发展高风速条件下行星边界层(PBL)的精确参数化对于提高热带气旋(TC)预报质量至关重要。考虑到涡流-扩散质量-通量(EDMF)型PBL方案是为非飓风边界层设计的,本研究通过进行三维理想化模拟来检验飓风条件下涡流-扩散质量-通量参数化的不确定性。结果表明:在非局域湍流通量中,地表驱动的中流场起主导作用,其量级与最大风半径外TC边界层中部的下梯度动量通量相当;相比之下,层积云顶驱动的MF相对可以忽略不计,对TC模拟的影响很小。为了表征垂直风切变对阻尼上升热羽流的影响,提出了一种基于地表稳定性参数的地表驱动中频变细的新方法,旨在将地表驱动中频只保留在不稳定边界层中。与传统的基于10米风速的中频变细方法相比,新方法在物理上更有吸引力,因为同时考虑了切变力和浮力力,并且有效区的宽度响应地表浮力的日变化。与保留原始中频分量的实验相比,由于RMW外边界层流入增强,使用任何一种中频变细方法都可以导致更强、更致密的内芯;然而,使用新方法,大风半径和入流层深度仅显着减小。对观测结果进行了比较,并进一步讨论了大风条件下中频参数化的问题。
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Parameterizations of Boundary Layer Mass Fluxes in High-Wind Conditions for Tropical Cyclone Simulations
Abstract Development of accurate planetary boundary layer (PBL) parameterizations in high-wind conditions is crucial for improving tropical cyclone (TC) forecasts. Given that Eddy-Diffusivity Mass-Flux (EDMF)-type PBL schemes are designed for non-hurricane boundary layers, this study examines the uncertainty of MF parameterizations in hurricane conditions by performing three-dimensional idealized simulations. Results show that the surface-driven MF plays a dominant role in the nonlocal turbulent fluxes and is comparable to the magnitude of downgradient momentum fluxes in the middle portion of TC boundary layers outside the radius of maximum wind (RMW); in contrast, the stratocumulus-top-driven MF is comparably negligible and exerts a marginal impact on TC simulations. To represent the impact of vertical wind shear on damping rising thermal plumes, a new approach of tapering surface-driven MF based on the surface stability parameter is proposed, aiming to retain the surface-driven MF only in unstable boundary layers. Compared to a traditional approach of MF tapering based on 10-m wind speeds, the new approach is physically more appealing as both shear and buoyancy forcings are considered and the width of the effective zone responds to diurnal variations of surface buoyancy forcing. Compared to the experiments retaining the original MF components, using either approach of MF tapering can lead to a stronger and more compact inner core due to enhanced boundary layer inflow outside the RMW; nevertheless, the radius of gale-force wind and inflow layer depth are only notably reduced using the new approach. Comparison to observations and further discussions on MF parameterizations in high-wind conditions are provided.
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来源期刊
Journal of the Atmospheric Sciences
Journal of the Atmospheric Sciences 地学-气象与大气科学
CiteScore
0.20
自引率
22.60%
发文量
196
审稿时长
3-6 weeks
期刊介绍: The Journal of the Atmospheric Sciences (JAS) publishes basic research related to the physics, dynamics, and chemistry of the atmosphere of Earth and other planets, with emphasis on the quantitative and deductive aspects of the subject. The links provide detailed information for readers, authors, reviewers, and those who wish to submit a manuscript for consideration.
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