By Tomomasa Tatsumi (auth.), Alexander J. Smits (eds.)
This quantity provides chosen papers from the IUTAM Symposium on Reynolds quantity Scaling in Turbulent circulate, convened in Princeton, NJ, united states, September I1-13, 2002. The habit ofturbulence at excessive Reynolds quantity is fascinating from a primary standpoint, in that the majority theories of turbulence make very particular predictions within the restrict of countless Reynolds quantity. From a more effective standpoint, there exist many functions that contain turbulent stream the place the Reynolds numbers are super huge. for instance, huge cars resembling submarines and advertisement transports function at Reynolds nine numbers according to size ofthe order oft0 , and commercial pipe flows hide a 7 very wide variety of Reynolds numbers as much as 10 • Many vitally important purposes of excessive Reynolds quantity move pertain to atmospheric and different geophysical flows the place tremendous excessive Reynolds numbers are the rule of thumb instead of the exception, and the certainty of weather adjustments and the prediction of damaging climate results hinges to a point on our appreciation ofhigh-Reynolds quantity turbulence habit. the $64000 results of Reynolds quantity on turbulence has bought loads of fresh recognition. the target of the Symposium was once to compile a number of the world's specialists during this region to appraise the hot experimental effects, talk about new scaling legislation and turbulence versions, and to reinforce our mutual realizing of turbulence.
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Extra info for 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
Reynolds , J. , Vol. III (1981),283-318.  K. Nakabayashi, O. Kitoh & F. Nishimura, Proc. 11th Symp. TSF Grenoble, (1997), 11: 10-15.  K. Nakabayashi, O . Kitoh & Y. Katou , Proc . 2nd Symp. TSFP Stockholm, (2001 ),49-54 .  O. Kitoh & K. Nakabayashi, Trans JSME (B), Vol. 59 , No . 564 (1998), 2443-2449. IJ. J -independen region • (/1>0). 0 (/I <0) : Boundary of /I effect appea ring Fig. 4 Flow regimediagramfor P flow Fig. L. S. K. YEUNG 2 lCSIRO Atmospheric Research, PMBI Aspendale, VIC 3195, Australia: 2School o/ Aerospace Engineering, Georgia Institute of Technology, Atlanta, GA 30332, USA Abstract: Lagrangian methods have been used to describe turbulent diffusion since G.!.
Sawford, 2002. Simple Lagrangian models for anomalous high Reynolds number scaling of scalar structure functions , Proceedings JUTAM Symposium on Reynolds Number Scaling in Turbulent Flow, Kluwer, Dordrecht, (this volume) . S. K Yeung, 1998. Conditional fluid-particle accelerations in turbulence, Theoret. Comput. Fluid Dyn. S. K Yeung , 2002 . Relative dispersion in isotropic turbulence: Part 2. A new stochastic model with Reynolds number dependence, J. , (Submitted). Gotoh , T. and D. Fukayama, 2001.
Fluids 9, 1054-1066. , 2002. Reynolds number effect on wall turbulence: toward effective feedback control. Int. J . Heat & Fluid flow 23, 678-589.  Hamilton, J . , 1995. Regeneration mechanisms of near-wall turbulence structures. J . Fluid Mech. 287, 317-348.  Jimenez, J. , 1999. The autonomous cycle of near-wall turbulence. J. Fluid Mech. 389, 335-359 . EMPIRICAL ASSESSMENT ON THE MEAN FLOW SIMILARITY OF FLAT-PLATE TURBULENT BOUNDARY LAYERS Michio Hayakawa Graduate School of Engineering, Hokkaido University, N13 W8, Sapporo 060-8628, Japan Abstract: Existing experimental data on the zero-pressure-gradient turbulent boundary layer are analyzed with the aim to assess the Reynolds number similarity of the mean flow.
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 by Tomomasa Tatsumi (auth.), Alexander J. Smits (eds.)