Finite Reynolds Number Effect on Small-Scale Statistics in Decaying Grid Turbulence

Tang, Shunlin; Danaila, Luminita; Antonia, Robert Anthony

Title: Finite Reynolds Number Effect on Small-Scale Statistics in Decaying Grid Turbulence
Creator: Tang, Shunlin; Danaila, Luminita; Antonia, Robert Anthony
Relation: Atmosphere Vol. 15, Issue 5, no. 540
Publisher Link: http://dx.doi.org/10.3390/atmos15050540
Publisher: MDPI AG
Resource Type: journal article
Date: 2024
Description: Since about 1997, the realisation that the finite Reynolds number (FRN) effect needs to be carefully taken into account when assessing the behaviour of small-scale statistics came to the fore. The FRN effect can be analysed either in the real domain or in the spectral domain via the scale-by-scale energy budget equation or the transport equation for the energy spectrum. This analysis indicates that the inertial range (IR) is established only when the Taylor microscale Reynolds number (Formula presented.) is infinitely large, thus raising doubts about published power-law exponents at finite values of (Formula presented.), for either the second-order velocity structure function (Formula presented.) or the energy spectrum. Here, we focus on the transport equation of (Formula presented.) in decaying grid turbulence, which represents a close approximation to homogeneous isotropic turbulence. The effect on the small-scales of the large-scale forcing term associated with the streamwise advection decreases as (Formula presented.) increases and finally disappears when (Formula presented.) is sufficiently large. An approach based on the dual scaling of (Formula presented.), i.e., a scaling based on the Kolmogorov scales (when the separation r is small) and another based on the integral scales (when r is large), yields (Formula presented.) when (Formula presented.) is infinitely large. This approach also yields (Formula presented.) when (Formula presented.) is infinitely large. These results seem to be supported by the trend, as (Formula presented.) increases, of available experimental data. Overall, the results for decaying grid turbulence strongly suggest that a tendency towards the predictions of K41 cannot be dismissed at least at Reynolds numbers which are currently beyond the reach of experiments and direct numerical simulations.
Subject: finite Reynolds number (FRN); statistics; transport equation; turbulence
Identifier: http://hdl.handle.net/1959.13/1505939
Identifier: uon:55786
Identifier: ISSN:2073-4433
Rights: x
Language: eng
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