English

A Universal Relation Between Intermittency and Dissipation in Turbulence

Fluid Dynamics 2025-12-12 v3

Abstract

Fundamental quantities of turbulent flows, such as the dissipation constant CεC_\varepsilon and the intermittency factor μ\mu, are examined in relation to each other for a broader class of non-ideal turbulent flows. In the context of the energy cascade, it is known that CεC_\varepsilon reflects its basic overall properties, while μ\mu quantifies the intermittency that emerges throughout the cascade. Using an extensive hot-wire dataset of turbulent wakes, grid-generated turbulence, and an axisymmetric jet, we individually analyze these quantities as one-dimensional surrogates of the energy cascade, considering only data that exhibit consistent scaling behavior. We find that μ\mu is inversely proportional to CεC_\varepsilon, offering a new empirical principle that bridges the gap between large and small scales in arbitrary turbulent flows.

Keywords

Cite

@article{arxiv.2407.15953,
  title  = {A Universal Relation Between Intermittency and Dissipation in Turbulence},
  author = {F. Schmitt and A. Fuchs and J. Peinke and M. Obligado},
  journal= {arXiv preprint arXiv:2407.15953},
  year   = {2025}
}
R2 v1 2026-06-28T17:50:02.363Z