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Spectral and particle dispersion properties of steady two-dimensional multiscale flows
The spectral and particle dispersion characteristics of steady multiscale laminar thin-layer flows are investigated through numerical simulations of a two-dimensional layer-averaged model. The model a...

Retraction: “Direct numerical simulation of the Ekman layer: A step in Reynolds number, and cautious support for a log law with a shifted origin” [Phys. Fluids 20, 101507 (2008)]

Phys. Fluids 21, 109901 (2009); doi:10.1063/1.3247176

Published 28 October 2009

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Philippe R. Spalart,1 Gary N. Coleman,2 and Roderick Johnstone2
1Boeing Commercial Airplanes, P.O. Box 3707, Seattle, Washington 98124, USA
2School of Engineering Sciences, University of Southampton, Southampton SO17 1BJ, United Kingdom

Abstract not available.

©2009 American Institute of Physics
History: Received 13 August 2009; accepted 10 September 2009; published 28 October 2009
Permalink: http://link.aip.org/link/?PHFLE6/21/109901/1
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EDITORIALLY RELATED

  1. Direct numerical simulation of the Ekman layer: A step in Reynolds number, and cautious support for a log law with a shifted origin
    Philippe R. Spalart et al.
    Phys. Fluids 20, 101507 (2008)

KEYWORDS and PACS

Keywords
PACS
  • 99.10.Ln
    Retraction (errata and other corrections)
  • 47.27.nb
    Boundary layer turbulence
  • 47.27.E-
    Turbulence simulation and modeling
  • YEAR: 2009

RELATED DATABASES

Web of Science

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PUBLICATION DATA

ISSN:
1070-6631 (print)   1089-7666 (online)
Publisher:
AIP is a member of CrossRef AIP

REFERENCES (4)
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  1. P. R. Spalart, G. N. Coleman, and R. Johnstone, “Direct numerical simulation of the Ekman layer: A step in Reynolds number, and cautious support for a log law with a shifted origin,” Phys. Fluids 20, 101507 (2008).
  2. S. Hoyas and J. Jiménez, “Scaling of the velocity fluctuations in turbulent channels up to Retau=2003,” Phys. Fluids 18, 011702 (2006).
  3. K. A. Chauhan, H. M. Nagib, P. Monkewitz, “On the composite logarithmic profile in zero pressure gradient turbulent boundary layers,” AIAA Paper No. 2007-532, 2007.
  4. P. R. Spalart, “Direct simulation of a turbulent boundary layer up to Rtheta=1410,” J. Fluid Mech. 187, 61 (1988).

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