Influence of an extended non-equilibrium region on the far-field of grid turbulence
Influence of an extended non-equilibrium region on the far-field of grid turbulence
The turbulence produced by two regular square mesh grids is compared to that produced by a square-fractal-element grid composed of an array of small square fractals. All three grids have approximately the same blockage. One of the regular grids is designed to have the same mesh length, M, as the fractal element grid, while the other matches the maximum bar thickness of the fractal. The transition of the turbulence from a non-equilibrium to a near equilibrium regime is assessed through the scale-by-scale kinetic energy budget and the velocity derivative skewness. It is found that the turbulence produced by all three grids agrees with many of the predictions for equilibrium phenomenology after approximately 20 M, with the regular grids reaching quasi-equilibrium earlier than the fractal. In the far-field, the fractal grid produces comparable or lower Relambda than the regular grids in both dimensional and non-dimensional measurements of the streamwise position. This is attributed to an extended rapidly decaying non-equilibrium region in the wake of the fractal grid relative to the regular grids.
978-3-319-29130-7
229-237
Hearst, R. Jason
965708e6-ddf4-4cbb-af74-866bb4cdb4de
Lavoie, Philippe
04aaae82-b9ba-420a-a1c0-3df4f08b3306
3 March 2016
Hearst, R. Jason
965708e6-ddf4-4cbb-af74-866bb4cdb4de
Lavoie, Philippe
04aaae82-b9ba-420a-a1c0-3df4f08b3306
Hearst, R. Jason and Lavoie, Philippe
(2016)
Influence of an extended non-equilibrium region on the far-field of grid turbulence.
In,
Peinke, Joachim
(ed.)
Progress in Turbulence VI.
(Springer Proceedings in Physics, 165)
Berlin, DE.
Springer, .
(doi:10.1007/978-3-319-29130-7_40).
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Book Section
Abstract
The turbulence produced by two regular square mesh grids is compared to that produced by a square-fractal-element grid composed of an array of small square fractals. All three grids have approximately the same blockage. One of the regular grids is designed to have the same mesh length, M, as the fractal element grid, while the other matches the maximum bar thickness of the fractal. The transition of the turbulence from a non-equilibrium to a near equilibrium regime is assessed through the scale-by-scale kinetic energy budget and the velocity derivative skewness. It is found that the turbulence produced by all three grids agrees with many of the predictions for equilibrium phenomenology after approximately 20 M, with the regular grids reaching quasi-equilibrium earlier than the fractal. In the far-field, the fractal grid produces comparable or lower Relambda than the regular grids in both dimensional and non-dimensional measurements of the streamwise position. This is attributed to an extended rapidly decaying non-equilibrium region in the wake of the fractal grid relative to the regular grids.
Text
hearst_lavoie_iTi2014_final.pdf
- Accepted Manuscript
More information
Accepted/In Press date: 11 June 2015
Published date: 3 March 2016
Organisations:
Aerodynamics & Flight Mechanics Group
Identifiers
Local EPrints ID: 390439
URI: http://eprints.soton.ac.uk/id/eprint/390439
ISBN: 978-3-319-29130-7
ISSN: 0930-8989
PURE UUID: 80bbc287-bc88-4d86-8d69-6bd925a07369
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Date deposited: 14 Apr 2016 11:54
Last modified: 14 Mar 2024 23:18
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Contributors
Author:
R. Jason Hearst
Author:
Philippe Lavoie
Editor:
Joachim Peinke
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