Logarithmic-Linear Law of the Streamwise Velocity Variance in Stably Stratified Boundary Layers

Xiang I.A. Yang; Peng E.S. Chen; Ruifeng Hu; Mahdi Abkar

doi:10.1007/s10546-021-00683-5

Logarithmic-Linear Law of the Streamwise Velocity Variance in Stably Stratified Boundary Layers

Xiang I.A. Yang, Peng E.S. Chen, Ruifeng Hu, Mahdi Abkar

Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

11 Scopus citations

Abstract

We exploit Monin–Obukhov similarity theory and Townsend’s attached-eddy hypothesis and arrive at a logarithmic-linear law for the streamwise velocity variance in the surface layer of stably stratified boundary layers. To test the logarithmic-linear law, we conduct large-eddy simulations (LES) of stably stratified turbulent boundary layers at various stratification conditions. The LES results give strong support to the scaling, and the logarithmic-linear law is found to be valid in the wake layer (i.e., outside the surface layer) of strongly stratified boundary layers. A detailed analysis shows that this is because stable thermal stratification suppresses the large-scale detached eddies in the wake layer.

Original language	English (US)
Pages (from-to)	199-213
Number of pages	15
Journal	Boundary-Layer Meteorology
Volume	183
Issue number	2
DOIs	https://doi.org/10.1007/s10546-021-00683-5
State	Published - May 2022

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Atmospheric Science

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title = "Logarithmic-Linear Law of the Streamwise Velocity Variance in Stably Stratified Boundary Layers",

abstract = "We exploit Monin–Obukhov similarity theory and Townsend{\textquoteright}s attached-eddy hypothesis and arrive at a logarithmic-linear law for the streamwise velocity variance in the surface layer of stably stratified boundary layers. To test the logarithmic-linear law, we conduct large-eddy simulations (LES) of stably stratified turbulent boundary layers at various stratification conditions. The LES results give strong support to the scaling, and the logarithmic-linear law is found to be valid in the wake layer (i.e., outside the surface layer) of strongly stratified boundary layers. A detailed analysis shows that this is because stable thermal stratification suppresses the large-scale detached eddies in the wake layer.",

author = "Yang, {Xiang I.A.} and Chen, {Peng E.S.} and Ruifeng Hu and Mahdi Abkar",

note = "Funding Information: XY acknowledges sponsor by US Office of Naval Research under contract N000142012315, with Dr. Peter Chang as Technical Monitor. MA acknowledges the financial support from the Independent Research Fund Denmark (DFF) under the Grant No. 0217-00038B. Publisher Copyright: {\textcopyright} 2022, The Author(s), under exclusive licence to Springer Nature B.V.",

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AU - Yang, Xiang I.A.

AU - Chen, Peng E.S.

AU - Hu, Ruifeng

AU - Abkar, Mahdi

N1 - Funding Information: XY acknowledges sponsor by US Office of Naval Research under contract N000142012315, with Dr. Peter Chang as Technical Monitor. MA acknowledges the financial support from the Independent Research Fund Denmark (DFF) under the Grant No. 0217-00038B. Publisher Copyright: © 2022, The Author(s), under exclusive licence to Springer Nature B.V.

PY - 2022/5

Y1 - 2022/5

N2 - We exploit Monin–Obukhov similarity theory and Townsend’s attached-eddy hypothesis and arrive at a logarithmic-linear law for the streamwise velocity variance in the surface layer of stably stratified boundary layers. To test the logarithmic-linear law, we conduct large-eddy simulations (LES) of stably stratified turbulent boundary layers at various stratification conditions. The LES results give strong support to the scaling, and the logarithmic-linear law is found to be valid in the wake layer (i.e., outside the surface layer) of strongly stratified boundary layers. A detailed analysis shows that this is because stable thermal stratification suppresses the large-scale detached eddies in the wake layer.

AB - We exploit Monin–Obukhov similarity theory and Townsend’s attached-eddy hypothesis and arrive at a logarithmic-linear law for the streamwise velocity variance in the surface layer of stably stratified boundary layers. To test the logarithmic-linear law, we conduct large-eddy simulations (LES) of stably stratified turbulent boundary layers at various stratification conditions. The LES results give strong support to the scaling, and the logarithmic-linear law is found to be valid in the wake layer (i.e., outside the surface layer) of strongly stratified boundary layers. A detailed analysis shows that this is because stable thermal stratification suppresses the large-scale detached eddies in the wake layer.

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Logarithmic-Linear Law of the Streamwise Velocity Variance in Stably Stratified Boundary Layers

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