Study of the instability of the Poiseuille flow using a thermodynamic formalism

The stability of the plane Poiseuille flow is analyzed using a thermodynamic formalism by considering the deterministic Navier–Stokes equation with Gaussian random initial data. A unique critical Reynolds number,Rec ≈ 2,332, at which the probability of observing puffs in the solution changes from 0...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2015-08, Vol.112 (31), p.9518-9523
Main Authors: Wang, Jianchun, Li, Qianxiao, E, Weinan
Format: Article
Language:English
Subjects:
Fluid dynamics
Friction
Kinetics
Magnetic Phenomena
Models, Theoretical
Navier-Stokes equations
Normal distribution
Physical Sciences
Probability
Reynolds number
Rheology
Skin Physiological Phenomena
Solutions
Thermodynamics
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Summary:The stability of the plane Poiseuille flow is analyzed using a thermodynamic formalism by considering the deterministic Navier–Stokes equation with Gaussian random initial data. A unique critical Reynolds number,Rec ≈ 2,332, at which the probability of observing puffs in the solution changes from 0 to 1, is numerically demonstrated to exist in the thermodynamic limit and is found to be independent of the noise amplitude. Using the puff density as the macrostate variable, the free energy of such a system is computed and analyzed. The puff density approaches zero as the critical Reynolds number is approached from above, signaling a continuous transition despite the fact that the bifurcation is subcritical for a finite-sized system. An action function is found for the probability of observing puffs in a small subregion of the flow, and this action function depends only on the Reynolds number. The strategy used here should be applicable to a wide range of other problems exhibiting subcritical instabilities.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.1501288112