Triadic instability of a non-resonant precessing fluid cylinder

Romain Lagrange; Patrice Meunier; Christophe Eloy

doi:10.1016/j.crme.2015.12.002

Triadic instability of a non-resonant precessing fluid cylinder

Romain Lagrange, Patrice Meunier, Christophe Eloy

Research output: Contribution to journal › Article › peer-review

Abstract

Flows forced by a precessional motion can exhibit instabilities of crucial importance, whether they concern the fuel of a flying object or the liquid core of a telluric planet. So far, stability analyses of these flows have focused on the special case of a resonant forcing. Here, we address the instability of the flow inside a precessing cylinder in the general case. We first show that the base flow forced by the cylinder precession is a superposition of a vertical or horizontal shear flow and of an infinite sum of forced modes. We then perform a linear stability analysis of this base flow by considering its triadic resonance with two free Kelvin modes. Finally, we derive the amplitude equations of the free Kelvin modes and obtain an expression of the instability threshold and growth rate.

Original language	English
Pages (from-to)	418-433
Number of pages	16
Journal	Comptes Rendus - Mecanique
Volume	344
Issue number	6
DOIs	https://doi.org/10.1016/j.crme.2015.12.002
Publication status	Published - 1 Jun 2016
Externally published	Yes

Keywords

Kelvin modes
Precession
Stability
Triadic resonance

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10.1016/j.crme.2015.12.002

Cite this

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title = "Triadic instability of a non-resonant precessing fluid cylinder",

abstract = "Flows forced by a precessional motion can exhibit instabilities of crucial importance, whether they concern the fuel of a flying object or the liquid core of a telluric planet. So far, stability analyses of these flows have focused on the special case of a resonant forcing. Here, we address the instability of the flow inside a precessing cylinder in the general case. We first show that the base flow forced by the cylinder precession is a superposition of a vertical or horizontal shear flow and of an infinite sum of forced modes. We then perform a linear stability analysis of this base flow by considering its triadic resonance with two free Kelvin modes. Finally, we derive the amplitude equations of the free Kelvin modes and obtain an expression of the instability threshold and growth rate.",

keywords = "Kelvin modes, Precession, Stability, Triadic resonance",

author = "Romain Lagrange and Patrice Meunier and Christophe Eloy",

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doi = "10.1016/j.crme.2015.12.002",

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T1 - Triadic instability of a non-resonant precessing fluid cylinder

AU - Lagrange, Romain

AU - Meunier, Patrice

AU - Eloy, Christophe

PY - 2016/6/1

Y1 - 2016/6/1

N2 - Flows forced by a precessional motion can exhibit instabilities of crucial importance, whether they concern the fuel of a flying object or the liquid core of a telluric planet. So far, stability analyses of these flows have focused on the special case of a resonant forcing. Here, we address the instability of the flow inside a precessing cylinder in the general case. We first show that the base flow forced by the cylinder precession is a superposition of a vertical or horizontal shear flow and of an infinite sum of forced modes. We then perform a linear stability analysis of this base flow by considering its triadic resonance with two free Kelvin modes. Finally, we derive the amplitude equations of the free Kelvin modes and obtain an expression of the instability threshold and growth rate.

AB - Flows forced by a precessional motion can exhibit instabilities of crucial importance, whether they concern the fuel of a flying object or the liquid core of a telluric planet. So far, stability analyses of these flows have focused on the special case of a resonant forcing. Here, we address the instability of the flow inside a precessing cylinder in the general case. We first show that the base flow forced by the cylinder precession is a superposition of a vertical or horizontal shear flow and of an infinite sum of forced modes. We then perform a linear stability analysis of this base flow by considering its triadic resonance with two free Kelvin modes. Finally, we derive the amplitude equations of the free Kelvin modes and obtain an expression of the instability threshold and growth rate.

KW - Kelvin modes

KW - Precession

KW - Stability

KW - Triadic resonance

U2 - 10.1016/j.crme.2015.12.002

DO - 10.1016/j.crme.2015.12.002

M3 - Article

AN - SCOPUS:84962781960

SN - 1631-0721

VL - 344

SP - 418

EP - 433

JO - Comptes Rendus - Mecanique

JF - Comptes Rendus - Mecanique

IS - 6

ER -

Triadic instability of a non-resonant precessing fluid cylinder

Abstract

Keywords

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