Assessment of a non-local subgrid scale model for LES

In this work we introduce a new approach assessing the LES models based on contrasting the eddy diffusivity operators obtained from the DNS and LES flow fields. Our analysis is based on the expectation that the mean field momentum obtained from a LES must be the same as the filtered mean field momentum obtained from a DNS. Using the macroscopic forcing method (Park and Mani 2021), we project both the LES and DNS equations onto the RANS space and obtain the respective operators that govern the mean fields of both systems. In this presentation, we consider homogeneous isotropic turbulence as a canonical setting to assess the LES models. We show that while the standard Smagorinsky model performs reasonably at low-wavenumbers when assessed against this criterion, it is over-dissipative in the high-wavenumbers limit. Inspired by these results we introduce an alternative non-local LES model and demonstrate its superior performance over the entire wavenumber spectrum. We have tested these LES models for as high as Re_λ=106.