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Large-scale structures predicted by linear models of wall-bounded turbulence

Large-scale structures predicted by linear models of wall-bounded turbulence
Large-scale structures predicted by linear models of wall-bounded turbulence

The objective of this article is to determine for which scales stochastic forcing of the linearized Navier-Stokes equations, recast as the resolvent operator, is sufficient to reproduce second-order statistics in turbulent channel flow. Our focus is on the large scales at a friction Reynolds number of Reτ = 2003. We consider a molecular resolvent operator, where only the kinematic viscosity appears, and an eddy resolvent operator, where the kinematic viscosity is augmented with an eddy viscosity profile. The molecular resolvent operator is able to identify the wall-normal height where the maximum energy of a structure is located, but it fails to predict the most energetic wave speed. It also overestimates the streamwise velocity component and underestimates the spatial support of the structures in the wall-normal direction. When the eddy resolvent operator identifies the most energetic wave speed, it also predicts the correct statistics for a given spatial scale. For spatial scales where this criterion is not met, the eddy viscosity overdamps the linear response. As a result, it predicts energetic wave speeds which are too low and velocity structures which are too energetic close to the wall. We conclude that eddy viscosity works best for structures which are most energetic in the wake region while its performance deteriorates for structures that are active in the log region.

1742-6588
Symon, S.
2e1580c3-ba27-46e8-9736-531099f3d850
Illingworth, S. J.
0e1c7b04-2c41-4152-996f-6aa92583bf5b
Marusic, I.
59f585da-d4ab-4dbf-8a74-421f5fb90e6a
Symon, S.
2e1580c3-ba27-46e8-9736-531099f3d850
Illingworth, S. J.
0e1c7b04-2c41-4152-996f-6aa92583bf5b
Marusic, I.
59f585da-d4ab-4dbf-8a74-421f5fb90e6a

Symon, S., Illingworth, S. J. and Marusic, I. (2020) Large-scale structures predicted by linear models of wall-bounded turbulence. In Journal of Physics Conference Series. vol. 1522 (doi:10.1088/1742-6596/1522/1/012006).

Record type: Conference or Workshop Item (Paper)

Abstract

The objective of this article is to determine for which scales stochastic forcing of the linearized Navier-Stokes equations, recast as the resolvent operator, is sufficient to reproduce second-order statistics in turbulent channel flow. Our focus is on the large scales at a friction Reynolds number of Reτ = 2003. We consider a molecular resolvent operator, where only the kinematic viscosity appears, and an eddy resolvent operator, where the kinematic viscosity is augmented with an eddy viscosity profile. The molecular resolvent operator is able to identify the wall-normal height where the maximum energy of a structure is located, but it fails to predict the most energetic wave speed. It also overestimates the streamwise velocity component and underestimates the spatial support of the structures in the wall-normal direction. When the eddy resolvent operator identifies the most energetic wave speed, it also predicts the correct statistics for a given spatial scale. For spatial scales where this criterion is not met, the eddy viscosity overdamps the linear response. As a result, it predicts energetic wave speeds which are too low and velocity structures which are too energetic close to the wall. We conclude that eddy viscosity works best for structures which are most energetic in the wake region while its performance deteriorates for structures that are active in the log region.

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More information

Published date: 10 June 2020
Venue - Dates: 4th Madrid Summer School on Turbulence, , Madrid, Spain, 2019-06-10 - 2019-07-12

Identifiers

Local EPrints ID: 480291
URI: http://eprints.soton.ac.uk/id/eprint/480291
DOI: doi:10.1088/1742-6596/1522/1/012006
ISSN: 1742-6588
PURE UUID: 41f02d00-9f51-49d8-83e0-610d72a628d0

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Date deposited: 01 Aug 2023 17:17
Last modified: 05 Jun 2024 19:20

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Contributors

Author: S. Symon
Author: S. J. Illingworth
Author: I. Marusic

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