arXiv:2304.11545 Abstract | arXiv Analytics

arXiv:2304.11545 [math-ph]Abstract References Reviews Resources

Monotone energy stability for Poiseuille flow in a porous medium

Published 2023-04-23Version 1

We study the monotone energy stability of ``Poiseuille flow" in a plane-parallel channel with a saturated porous medium modeled by the Brinkman equation, on the basis of an analogy with a magneto-hydrodynamic problem (Hartmann flow) (cf. \cite{Hill.Straughan.2010}, \cite{Nield.2003}). We prove that the least stabilizing perturbations, in the energy norm, are the two-dimensional spanwise perturbations. This result implies a Squire theorem for monotone nonlinear energy stability. Moreover, for Reynolds numbers less than the critical Reynolds number $R_E $ there can be no transient energy growth.

Comments: 9 pages

Categories: math-ph, math.MP

Subjects: 76E05, 76S05

Keywords: monotone energy stability, poiseuille flow, porous medium, monotone nonlinear energy stability, transient energy growth

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arXiv:2304.11545 [math-ph]Abstract References Reviews Resources

Monotone energy stability for Poiseuille flow in a porous medium

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Monotone energy stability for Poiseuille flow in a porous medium

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arXiv:2304.11545 [math-ph]Abstract References Reviews Resources