A Universal Relation Between Intermittency and Dissipation in Turbulence
Abstract
Fundamental quantities of turbulent flows, such as the dissipation constant and the intermittency factor , 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 reflects its basic overall properties, while 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 is inversely proportional to , offering a new empirical principle that bridges the gap between large and small scales in arbitrary turbulent flows.
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}
}