Continuous data assimilation closure for modeling statistically steady turbulence in large-eddy simulation

Sagy R. Ephrati; Arnout Franken; Erwin Luesink; Paolo Cifani; Bernard J. Geurts

doi:10.1103/PhysRevFluids.10.013801

Continuous data assimilation closure for modeling statistically steady turbulence in large-eddy simulation

Sagy R. Ephrati^*
, Arnout Franken
, Erwin Luesink
, Paolo Cifani
, Bernard J. Geurts

^*Corresponding author for this work

Mathematics of Multiscale Modeling and Simulations

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

3 Citations (Scopus)

Abstract

A closure model is presented for large-eddy simulation (LES) based on the three-dimensional variational data assimilation algorithm. The approach aims at reconstructing high-fidelity kinetic energy spectra in coarse numerical simulations by including feedback control to represent unresolved dynamics interactions in the flow as stochastic processes. The forcing uses statistics obtained from offline high-fidelity data and requires only a few parameters compared to the number of degrees of freedom of LES. This modeling strategy is applied to geostrophic turbulence on the sphere and enables simulating indefinitely at reduced cost. The method accurately recovers the energy spectra and the zonal velocity profiles in the coarse model for three generic situations.

Original language	English
Article number	013801
Journal	Physical review fluids
Volume	10
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevFluids.10.013801
Publication status	Published - Jan 2025

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ArticleFinal published version, 2 MBLicence: CC BY

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title = "Continuous data assimilation closure for modeling statistically steady turbulence in large-eddy simulation",

abstract = "A closure model is presented for large-eddy simulation (LES) based on the three-dimensional variational data assimilation algorithm. The approach aims at reconstructing high-fidelity kinetic energy spectra in coarse numerical simulations by including feedback control to represent unresolved dynamics interactions in the flow as stochastic processes. The forcing uses statistics obtained from offline high-fidelity data and requires only a few parameters compared to the number of degrees of freedom of LES. This modeling strategy is applied to geostrophic turbulence on the sphere and enables simulating indefinitely at reduced cost. The method accurately recovers the energy spectra and the zonal velocity profiles in the coarse model for three generic situations.",

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AU - Ephrati, Sagy R.

AU - Franken, Arnout

AU - Luesink, Erwin

AU - Cifani, Paolo

AU - Geurts, Bernard J.

PY - 2025/1

Y1 - 2025/1

N2 - A closure model is presented for large-eddy simulation (LES) based on the three-dimensional variational data assimilation algorithm. The approach aims at reconstructing high-fidelity kinetic energy spectra in coarse numerical simulations by including feedback control to represent unresolved dynamics interactions in the flow as stochastic processes. The forcing uses statistics obtained from offline high-fidelity data and requires only a few parameters compared to the number of degrees of freedom of LES. This modeling strategy is applied to geostrophic turbulence on the sphere and enables simulating indefinitely at reduced cost. The method accurately recovers the energy spectra and the zonal velocity profiles in the coarse model for three generic situations.

AB - A closure model is presented for large-eddy simulation (LES) based on the three-dimensional variational data assimilation algorithm. The approach aims at reconstructing high-fidelity kinetic energy spectra in coarse numerical simulations by including feedback control to represent unresolved dynamics interactions in the flow as stochastic processes. The forcing uses statistics obtained from offline high-fidelity data and requires only a few parameters compared to the number of degrees of freedom of LES. This modeling strategy is applied to geostrophic turbulence on the sphere and enables simulating indefinitely at reduced cost. The method accurately recovers the energy spectra and the zonal velocity profiles in the coarse model for three generic situations.

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JO - Physical review fluids

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ER -

Continuous data assimilation closure for modeling statistically steady turbulence in large-eddy simulation

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