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Main Authors: Khujadze, George, Gogichaishvili, David, Chagelishvili, George
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2402.19148
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author Khujadze, George
Gogichaishvili, David
Chagelishvili, George
author_facet Khujadze, George
Gogichaishvili, David
Chagelishvili, George
contents A novel turbulence control strategy for wall-bounded shear flow is proposed by Chagelishvili et al, 2014. The essence of this strategy involves continuously imposition of specially designed seed velocity perturbations with spanwise asymmetry near the flow wall. The configuration of this imposed velocity field, enhanced due to the shear flow non-normality, breaks the flow spanwise reflection symmetry, specifically, resulting in the generation of a secondary nonuniform spanwise mean flow. Consequently, this secondary flow significantly reduces flow turbulence. In Chagelishvili et al, 2014, the first steps were taken towards developing this new turbulence control strategy and demonstrating its efficiency. The plane Couette flow was considered, as a representative example, and a theoretical and hypothetical weak near-wall volume forcing was designed, which though theoretical, provided valuable insights into the characteristics of the seed velocity field. Obviously, the practical significance of this control strategy should be confirmed by evaluating its effectiveness in flows at various Reynolds numbers, and with different parameters of the imposed seed velocity field. In this paper, we investigate the effectiveness and universality of the turbulence control strategy for Couette flow at various Reynolds numbers and different locations of the volume forcing. Through direct numerical simulations, we show universality of the discussed turbulence control method. The application of a specially designed, weak near-wall volume forcing with a fixed configuration and amplitude results in the same effective turbulence control, reducing turbulence kinetic energy production by 30-40\% across a wider range Reynolds numbers, $Re_τ = 52,92,128,270$ and various localizations.
format Preprint
id arxiv_https___arxiv_org_abs_2402_19148
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Couette flow turbulence reduction by the flow spanwise reflection symmetry breaking: On the universality of the control strategy
Khujadze, George
Gogichaishvili, David
Chagelishvili, George
Fluid Dynamics
A novel turbulence control strategy for wall-bounded shear flow is proposed by Chagelishvili et al, 2014. The essence of this strategy involves continuously imposition of specially designed seed velocity perturbations with spanwise asymmetry near the flow wall. The configuration of this imposed velocity field, enhanced due to the shear flow non-normality, breaks the flow spanwise reflection symmetry, specifically, resulting in the generation of a secondary nonuniform spanwise mean flow. Consequently, this secondary flow significantly reduces flow turbulence. In Chagelishvili et al, 2014, the first steps were taken towards developing this new turbulence control strategy and demonstrating its efficiency. The plane Couette flow was considered, as a representative example, and a theoretical and hypothetical weak near-wall volume forcing was designed, which though theoretical, provided valuable insights into the characteristics of the seed velocity field. Obviously, the practical significance of this control strategy should be confirmed by evaluating its effectiveness in flows at various Reynolds numbers, and with different parameters of the imposed seed velocity field. In this paper, we investigate the effectiveness and universality of the turbulence control strategy for Couette flow at various Reynolds numbers and different locations of the volume forcing. Through direct numerical simulations, we show universality of the discussed turbulence control method. The application of a specially designed, weak near-wall volume forcing with a fixed configuration and amplitude results in the same effective turbulence control, reducing turbulence kinetic energy production by 30-40\% across a wider range Reynolds numbers, $Re_τ = 52,92,128,270$ and various localizations.
title Couette flow turbulence reduction by the flow spanwise reflection symmetry breaking: On the universality of the control strategy
topic Fluid Dynamics
url https://arxiv.org/abs/2402.19148