Taylor's hypothesis convection velocities from mass conservation equation

S. Davoust; L. Jacquin

doi:10.1063/1.3584004

Taylor's hypothesis convection velocities from mass conservation equation

S. Davoust, L. Jacquin

ONERA Office National d'Etudes et Recherches Aerospatiales

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

Abstract

We propose to use the continuity equation to calculate convection velocities provided by the Taylor hypothesis for flow structures crossing a measurement plane. This is carried out in Fourier space to identify a velocity associated to each frequency. High-speed PIV experimental data of an axisymmetric mixing layer is used to implement the method. We show that as expected the Taylor hypothesis fails for the lowest frequencies and predicts the convection velocity to be close to the mean velocity for the higher ones. The method is compared to one of the definitions proposed by Del Álamo and Jiménez [J. Fluid Mech. 640, 5 (2009)].

Original language	English
Article number	051701
Journal	Physics of Fluids
Volume	23
Issue number	5
DOIs	https://doi.org/10.1063/1.3584004
Publication status	Published - 16 May 2011
Externally published	Yes

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title = "Taylor's hypothesis convection velocities from mass conservation equation",

abstract = "We propose to use the continuity equation to calculate convection velocities provided by the Taylor hypothesis for flow structures crossing a measurement plane. This is carried out in Fourier space to identify a velocity associated to each frequency. High-speed PIV experimental data of an axisymmetric mixing layer is used to implement the method. We show that as expected the Taylor hypothesis fails for the lowest frequencies and predicts the convection velocity to be close to the mean velocity for the higher ones. The method is compared to one of the definitions proposed by Del {\'A}lamo and Jim{\'e}nez [J. Fluid Mech. 640, 5 (2009)].",

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AU - Davoust, S.

AU - Jacquin, L.

PY - 2011/5/16

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N2 - We propose to use the continuity equation to calculate convection velocities provided by the Taylor hypothesis for flow structures crossing a measurement plane. This is carried out in Fourier space to identify a velocity associated to each frequency. High-speed PIV experimental data of an axisymmetric mixing layer is used to implement the method. We show that as expected the Taylor hypothesis fails for the lowest frequencies and predicts the convection velocity to be close to the mean velocity for the higher ones. The method is compared to one of the definitions proposed by Del Álamo and Jiménez [J. Fluid Mech. 640, 5 (2009)].

AB - We propose to use the continuity equation to calculate convection velocities provided by the Taylor hypothesis for flow structures crossing a measurement plane. This is carried out in Fourier space to identify a velocity associated to each frequency. High-speed PIV experimental data of an axisymmetric mixing layer is used to implement the method. We show that as expected the Taylor hypothesis fails for the lowest frequencies and predicts the convection velocity to be close to the mean velocity for the higher ones. The method is compared to one of the definitions proposed by Del Álamo and Jiménez [J. Fluid Mech. 640, 5 (2009)].

U2 - 10.1063/1.3584004

DO - 10.1063/1.3584004

M3 - Letter

AN - SCOPUS:79957850346

SN - 1070-6631

VL - 23

JO - Physics of Fluids

JF - Physics of Fluids

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Taylor's hypothesis convection velocities from mass conservation equation

Abstract

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