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IUTAM Symposium on Reynolds Number Scaling in Turbulent Flow

Proceedings of the IUTAM Symposium held in Princeton, NJ, U.S.A., 11–13 September 2002

  • Conference proceedings
  • © 2004

Overview

Editors:
  1. Alexander J. Smits

    1. Princeton University, Princeton, USA

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  • Contributes to the knowledge of turbulence
  • Helps to guide future experimental, numerical and theoretical research in this area
  • Invaluable reference

Part of the book series: Fluid Mechanics and Its Applications (FMIA, volume 74)

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Table of contents (55 papers)

  1. Reynolds Number Scaling of Wall Layer Velocity-Vorticity Products

    • P. A. Priyadarshana, J. C. Klewicki
    Pages 117-122

  2. Scaling of The Large-Scale Motions in Fully Developed Turbulent Channel Flow

    • Makoto Tsubokura, Tetsuro Tamura
    Pages 123-128

  3. The Mean Velocity Profile of Two-Dimensional Fully Developed Turbulent Plane-Channel Flows

    • F. Durst, E. S. Zanoun, H. Nagib
    Pages 129-136

  4. Non-Extensive Model for Turbulent Flow in a Rapidly Rotating Annulus

    • Sunghwan Jung, Brian D. Storey, Julien Aubert, Harry L. Swinney
    Pages 137-140

  5. A Unified Theory for the Origin of Turbulence and its Subsequent Evolution

    • S. C. Ling, H. P. Pao
    Pages 141-144

  6. A Reynolds Number Independent Model for Turbulence in Couette Flow

    • Kumar Bobba, John Doyle, Mory Gharib
    Pages 145-149

  7. Scaling of the Near-Wall Layer Beneath Reattaching Separated Flow

    • Philip E. Hancock
    Pages 151-154

  8. High-Resolution Direct Numerical Simulation of Turbulence — Spectra of Fourth-Order Velocity Moments —

    • Yukio Kaneda, Takashi Ishihara, Mitsuo Yokokawa, Ken'ichi Itakura, Atsuya Uno
    Pages 155-162

  9. Scaling of Multi-Particle Lagrangian Statistics in Direct Numerical Simulations

    • P. K. Yeung, Shuyi Xu, M. S. Borgas, B. L. Sawford
    Pages 163-168

  10. Development of High Reynolds Number Optimal Les Models

    • R. D. Moser, P. Zandonade
    Pages 169-174

  11. Similarity Scaling and Statistics of Pressure Fluctuation in Turbulence

    • Yoshiyuki Tsuji
    Pages 175-180

  12. Convection, Pressure and Dissipation in Three-Dimensional Turbulence

    • Tohru Nakano, Toshiyuki Gotoh
    Pages 181-186

  13. Dependence of Levy Statistics With Reynolds Number Application to turbulence intermittency and spray modeling

    • Nicolas Rimbert, Olivier Séro-Guillaume
    Pages 187-190

  14. The Asymptotic Profiles In Forced Convection Turbulent Boundary Layers

    • Luciano Castillo, Xia Wang
    Pages 191-194

  15. Scaling Turbulent Boundary Layer With Suction or Blowing

    • Raul Bayoan Cal, Luciano Castillo
    Pages 195-199

  16. Homogeneous Anisotropic Turbulence

    • L. Biferale, I. Daumont, A. Lanotte, F. Toschi
    Pages 201-206

  17. Four-Dimensional Measurements of the Structure of Dissipative Scales in an Aqueous Near-Isotropic Turbulence

    • L. J. Jiang, S. S. Shy, T. S. Yang, J. H. Lee
    Pages 207-213

  18. Mixing

    • Emmanuel Villermaux
    Pages 215-222

  19. The Spectral Transfer in Isotropic Turbulence

    • William K. George, Honglu Wang
    Pages 223-228

  20. Rλ Dependence of The Kolmogorov Constant and Scaling

    • B. R. Pearson, P. -Å. Krogstad, G. R. Johnson
    Pages 229-236
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Keywords

About this book

This volume presents selected papers from the IUTAM Symposium on Reynolds Number Scaling in Turbulent Flow, convened in Princeton, NJ, USA, September I1-13, 2002. The behavior ofturbulence at high Reynolds number is interesting from a fundamental point of view, in that most theories of turbulence make very specific predictions in the limit of infinite Reynolds number. From a more practical point of view, there exist many applications that involve turbulent flow where the Reynolds numbers are extremely large. For example, large vehicles such as submarines and commercial transports operate at Reynolds 9 numbers based on length ofthe order oft0 , and industrial pipe flows cover a 7 very wide range of Reynolds numbers up to 10 • Many very important applications of high Reynolds number flow pertain to atmospheric and other geophysical flows where extremely high Reynolds numbers are the rule rather than the exception, and the understanding of climate changes and the prediction of destructive weather effects hinges to some extent on our appreciation ofhigh-Reynolds number turbulence behavior. The important effects of Reynolds number on turbulence has received a great deal of recent attention. The objective of the Symposium was to bring together many of the world's experts in this area to appraise the new experimental results, discuss new scaling laws and turbulence models, and to enhance our mutual understanding of turbulence.

Editors and Affiliations

  • Princeton University, Princeton, USA

    Alexander J. Smits

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