A Non‐Dimensional Index for Characterizing the Transition of Turbulence Regimes in Stable Atmospheric Boundary Layers

Shao, Xin; Zhang, Ning; Li, Dan; Sun, Jianning

doi:10.1029/2023gl105304

Geophysical Research Letters

2023

DOI: 10.1029/2023gl105304

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A Non‐Dimensional Index for Characterizing the Transition of Turbulence Regimes in Stable Atmospheric Boundary Layers

Xin Shao,

Ning Zhang,

Dan Li

et al.

Abstract: The transition from moderate to weak turbulence regimes remains a grand challenge for stable boundary layer parameterizations in weather and climate models. In this study, a critical horizontal Froude number (≈0.28) is proposed to characterize such a transition, which corresponds to the development of quasi two‐dimensional pancake vortices. Traditionally defined stability parameters corresponding to the critical horizontal Froude number are estimated and are consistent with values in the literature. The critic… Show more

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2024

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On the Size of Dominant Momentum Transporting Eddies in Stable Atmospheric Boundary Layers

Shao,

Zhang,

et al. 2024

Geophysical Research Letters

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The size of dominant momentum transporting eddies in stable atmospheric boundary layers is poorly understood. This study demonstrates that the distance to the ground z is relevant in constraining in weakly stable conditions (, where is the stability parameter) and less relevant in moderately stable conditions (). The widely used Ozmidov scale, however, fails to represent in moderately stable conditions. The low‐wavenumber ends of the −5/3 scaling law regions in the spanwise and vertical velocity spectra correlate better with a shear‐related length scale. Based on the characteristics of velocity spectra and the balance between kinetic energy and potential energy, a new length scale is proposed to indicate for moderately stable conditions. Observational data show that this new length scale effectively characterizes in moderately stable conditions. These findings can help develop better turbulence parameterization schemes for stable atmospheric boundary layers.

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On the Size of Dominant Momentum Transporting Eddies in Stable Atmospheric Boundary Layers

Shao,

Zhang,

et al. 2024

Geophysical Research Letters

View full text Add to dashboard Cite

show abstract

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A Non‐Dimensional Index for Characterizing the Transition of Turbulence Regimes in Stable Atmospheric Boundary Layers

Cited by 1 publication

References 71 publications

On the Size of Dominant Momentum Transporting Eddies in Stable Atmospheric Boundary Layers

On the Size of Dominant Momentum Transporting Eddies in Stable Atmospheric Boundary Layers

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