Stabilizing two-dimensional turbulent Kolmogorov flow via selective modification of inviscid invariants

We stabilize 2D turbulent Kolmogorov flow by selectively altering the time rate of change of inviscid invariants (energy and enstrophy) of the flow. This method has earlier been demonstrated to modify the 2D unforced decaying turbulent flow to reach steady states. However, Kolmogorov flow exhibits f...

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Bibliographic Details
Published in:Physics of fluids (1994) 2023-12, Vol.35 (12)
Main Authors: Kumar, Gaurav, Nair, Aditya
Format: Article
Language:English
Subjects:
Equilibrium flow
Fluid dynamics
Fluid flow
Invariants
Steady state
Turbulent flow
Two dimensional flow
Wavelengths
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Summary:We stabilize 2D turbulent Kolmogorov flow by selectively altering the time rate of change of inviscid invariants (energy and enstrophy) of the flow. This method has earlier been demonstrated to modify the 2D unforced decaying turbulent flow to reach steady states. However, Kolmogorov flow exhibits flow unsteadiness over a range of spatial and temporal scales which are driven by constant external forcing at wave number kf. The energy injected at scale ( k ≈ k f) is distributed to large ( k > k f) and small ( k < k f) wave numbers through interactions of different scales called direct and inverse energy cascading, respectively. The selective modification strategy autonomously identifies additional forcing inputs into the governing equations which results in the transformation of Kolmogorov flow into a non-trivial steady state. We demonstrate that this method is highly effective in altering the inverse energy cascading, a particularly intricate challenge in fluid dynamics. Intriguingly, we have also found that the steady states achieved through this approach resemble an invariant solution of the original Kolmogorov flow, highlighting the potential significance of our method.
ISSN:1070-6631
1089-7666
DOI:10.1063/5.0180551