PERFORMANCE OF DYNAMIC MIXED SGS MODEL : Large eddy simulation of turbulent flow past 2D square cylinder using dynamic SGS model (Part 2)

doi:https://doi.org/10.3130/aija.62.57_2

PERFORMANCE OF DYNAMIC MIXED SGS MODEL : Large eddy simulation of turbulent flow past 2D square cylinder using dynamic SGS model (Part 2)

Yoshihide Tominaga,Akashi Mochida,Shuzo Murakami,Satoru Iizuka-1997-01-01-Journal of Architecture and Planning (Transactions of AIJ)

1PDF

TL;DRAbstract

A turbulent vortex-shedding flow past a two-dimensional(2D) square cylinder at Re=2.2×10^4 is analyzed by Large Eddy Simulation(LES) using two types of dynamic Subgrid-scale(SGS) models, i.e., the Smagorinsky type and mixed type. Results given from the two dynamic SGS models are compared with those from the standard Smagorinsky model and the experiments conducted by Lyn et al. Two types of dynamic SGS model improve the accuracy of the predictions remarkably. In particular, the mixed type provides more accurate results than those given by the Smagorinsky type dynamic model.

Chat with Paper

AI Agents for this Paper

A turbulent vortex-shedding flow past a two-dimensional(2D) square cylinder at Re=2.2×10^4 is analyzed by Large Eddy Simulation(LES) using two types of dynamic Subgrid-scale(SGS) models, i.e., the Smagorinsky type and mixed type. Results given from the two dynamic SGS models are compared with those from the standard Smagorinsky model and the experiments conducted by Lyn et al. Two types of dynamic SGS model improve the accuracy of the predictions remarkably. In particular, the mixed type provides more accurate results than those given by the Smagorinsky type dynamic model.

Keywords

Large eddy simulationTurbulenceCylinderVortex sheddingMechanicsFlow (mathematics)Square (algebra)Type (biology)

Chat

Click to start Chat