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Auteurs principaux: Wang, Changlong, Liu, Luoqin, Yang, Xiang I. A., Hu, Ruifeng
Format: Preprint
Publié: 2025
Sujets:
Accès en ligne:https://arxiv.org/abs/2512.16930
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_version_ 1866911327346229248
author Wang, Changlong
Liu, Luoqin
Yang, Xiang I. A.
Hu, Ruifeng
author_facet Wang, Changlong
Liu, Luoqin
Yang, Xiang I. A.
Hu, Ruifeng
contents It is well known that the Coriolis force due to Earth's rotation can induce wind veer in the mean flow velocity of an atmospheric boundary layer (ABL), but much less is known about its effects on turbulent coherent structures. In this work, large-eddy simulation (LES) is employed to investigate the effects of the Coriolis force on the characteristics of turbulent coherent structures in the conventionally neutral atmospheric boundary layers (CNBL). Variation of the Coriolis force is realized by changing latitude or geostrophic wind speed.We found that the Coriolis force causes distinct deflection of coherent velocity structures to the geostrophic wind direction, which is not aligned with the direction of either the mean wind or the mean shear. By plotting against the difference between the local wind veer angle and the global cross-isobaric angle, the structure deflection angle under different conditions can be well collapsed, indicating a possible universal relationship. Moreover, we also studied the effect of the Coriolis force on the inclination angle of large-scale turbulent structures. It is found that as latitude decreases or geostrophic wind speed increases, the inclination angle in the surface layer increases, probably due to the deflection of turbulent structures caused by the Coriolis force.
format Preprint
id arxiv_https___arxiv_org_abs_2512_16930
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Effects of the Coriolis force on the coherent structures in conventionally neutral atmospheric boundary layers
Wang, Changlong
Liu, Luoqin
Yang, Xiang I. A.
Hu, Ruifeng
Atmospheric and Oceanic Physics
It is well known that the Coriolis force due to Earth's rotation can induce wind veer in the mean flow velocity of an atmospheric boundary layer (ABL), but much less is known about its effects on turbulent coherent structures. In this work, large-eddy simulation (LES) is employed to investigate the effects of the Coriolis force on the characteristics of turbulent coherent structures in the conventionally neutral atmospheric boundary layers (CNBL). Variation of the Coriolis force is realized by changing latitude or geostrophic wind speed.We found that the Coriolis force causes distinct deflection of coherent velocity structures to the geostrophic wind direction, which is not aligned with the direction of either the mean wind or the mean shear. By plotting against the difference between the local wind veer angle and the global cross-isobaric angle, the structure deflection angle under different conditions can be well collapsed, indicating a possible universal relationship. Moreover, we also studied the effect of the Coriolis force on the inclination angle of large-scale turbulent structures. It is found that as latitude decreases or geostrophic wind speed increases, the inclination angle in the surface layer increases, probably due to the deflection of turbulent structures caused by the Coriolis force.
title Effects of the Coriolis force on the coherent structures in conventionally neutral atmospheric boundary layers
topic Atmospheric and Oceanic Physics
url https://arxiv.org/abs/2512.16930