Titlebook: IUTAM Symposium on Reynolds Number Scaling in Turbulent Flow; Proceedings of the I Alexander J. Smits Conference proceedings 2004 Springer

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Conference proceedings 2004I1-13, 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

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Empirical Assessment on the Mean Flow Similarity of Flat-Plate Turbulent Boundary Layers, with an additive constant is shown to hold over a significant portion of the outer layer where the velocity-defect scales with the free-stream velocity multiplied by the ratio of displacement thickness to boundary layer thickness.

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,Lagrangian Modelling of Turbulent Diffusion in the Atmosphere — Recent Developments,werful approach, it necessarily involves consideration of finite Reynolds number effects that are generally ignored in the atmosphere. Here we give a brief overview of some of this recent work underpinning Lagrangian modelling of turbulent dispersion in the atmosphere.

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Reynolds Number Dependencies in Boundary Layer Axial Stress and Scalar Variance Transport,ver other terms in the evolution equations. Independent of Reynolds number, the peak in the spectra of the turbulent transport term was found to occur near λ., the Taylor microscale associated with ..

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Superfluid Turbulence: Experiments, Physical Principles, and Outstanding Problems,mpared, similarities and differences in the underlying physical principles being emphasized. Outstanding problems are summarized. A more detailed discussion of the issues raised can be found in a recent review: W F Vinen and J J Niemela, J. Low Temp. Phys. ., 167 (2002).

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