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W2991413518 abstract "An intrinsic feature of turbulent flows is an enhanced rate of mixing and kinetic energy dissipation due to the rapid generation of small-scale motions from large-scale excitation. The transfer of kinetic energy from large to small scales is commonly attributed to the stretching of vorticity by the strain rate, but strain self-amplification also plays a role. Previous treatments of this connection are phenomenological or inexact, or cannot distinguish the contribution of vorticity stretching from that of strain self-amplification. In this Letter, an exact relationship is derived which quantitatively establishes how intuitive multiscale mechanisms such as vorticity stretching and strain self-amplification together actuate the interscale transfer of energy in turbulence. Numerical evidence verifies this result and uses it to demonstrate that the contribution of strain self-amplification to energy transfer is higher than that of vorticity stretching, but not overwhelmingly so." @default.
W2991413518 created "2019-12-05" @default.
W2991413518 creator A5007022313 @default.
W2991413518 date "2020-03-10" @default.
W2991413518 modified "2023-10-05" @default.
W2991413518 title "Energy Transfer from Large to Small Scales in Turbulence by Multiscale Nonlinear Strain and Vorticity Interactions" @default.
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W2991413518 doi "https://doi.org/10.1103/physrevlett.124.104501" @default.
W2991413518 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/32216417" @default.
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