大气边界层中的对称不变解

IF 3 3区 地球科学 Q2 METEOROLOGY & ATMOSPHERIC SCIENCES Journal of the Atmospheric Sciences Pub Date : 2023-12-01 DOI:10.1175/jas-d-23-0168.1
Jun-Ichi Yano, Marta Wac lawczyk
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引用次数: 0

摘要

大气流动控制方程的对称性约束了方程的解。本研究将从控制方程中确定的这些对称性应用于相对弱分层(稳定和不稳定)下的大气边界层。更具体地说,分析了控制方程系统在可能的对称变换下保持其形式的不变解。关键的问题是,这些不变解能否重新推导出已知的垂直通量和水平风和潜在温度的平均值的垂直剖面。由Monin-Obukhov理论预测的地表风和势温的平均廓线可以作为不变解恢复。然而,动量和热量的一致垂直通量不再像Monin-Obukhov理论所假定的那样随高度保持恒定,而是在稳定条件下分别在动力亚层和上述亚层上随高度呈线性和抛物线变化。目前的研究表明,尽管从观测上看,偏离恒定是很弱的,但它是维持其对称性一致性的表层动力学的关键部分。
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Symmetry Invariant Solutions in Atmospheric Boundary Layers
The symmetries of the governing equations of atmospheric flows constrain the solutions. The present study applies those symmetries identified from the governing equations to the atmospheric boundary layers under relatively weak stratifications (stable and unstable). More specifically, the invariant solutions are analyzed, which conserve their forms under possible symmetry transformations of a governing–equation system. The key question is whether those invariant solutions can re–derive the known vertical profiles of both vertical fluxes and the means for the horizontal wind and the potential temperature. The mean profiles for the wind and the potential temperature in the surface layer predicted from the Monin–Obukhov theory can be recovered as invariant solutions. However, the consistent vertical fluxes both for the momentum and heat no longer remain constant with height, as assumed in the Monin–Obukhov theory, but linearly and parabolically change with height over the dynamic sublayer and the above, respectively, in stable conditions. The present study suggests that a deviation from the constancy, though observationally known to be weak, is a crucial part of the surface–layer dynamics to maintain its symmetry consistency.
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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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