Triad interactions investigated by dual vortex shedding

Preben Buchhave, Mengjia Ren, Clara Marika Velte

Published 2023-01-16Version 1

The study of the exchange of momentum and energy between wave components of the turbulent velocity field, the so-called triad interactions, offers a unique way of visualizing and describing turbulence. Most often, this study has been carried out by Direct Numerical Simulations or by power spectral measurements. Due to the complexity of the problem and the great range of velocity scales in high Reynolds number developed turbulence, direct measurements of the interaction between the individual wave components have been rare. In the present work, we therefore present measurements and related computer simulations of triad interactions between controlled wave components injected into an approximately laminar and uniform flow from an open wind tunnel by vortex shedding from two rods suspended into the flow. We are hereby able to isolate and display the individual triad interactions taking place as the flow develops downstream as well as the strength of the interactions and the time constants governing the development of higher order frequency components. This provides unique insight into the inner workings of turbulence and shows how the nonlinear term in the Navier-Stokes equation forces the energy towards higher frequencies, which is the reason for the so-called energy cascade.