"A Dynamic Subfilter-scale Stress Model for Large Eddy Simulations Based on Physical Flow Scales" etc15 Tracking Number 16Presentation: Session: Large Eddy Simulation 2 Room: Room E Session start: 15:00 Thu 27 Aug 2015 Amirreza Rouhi amirreza.rouhi@queensu.ca Affifliation: Queen's University, Kingston, ON, Canada Ugo Piomelli ugo@queensu.ca Affifliation: Queen's University, Kingston, ON, Canada Bernard Geurts bernard.geurts@gmail.com Affifliation: University of Twente, Enschede, The Netherlands Topics: - Large eddy simulation and related techniques Abstract: We propose a new definition of the length scale in an eddy-viscosity model for large-eddy simulations (LES). This formulation extends and generalizes a previous proposal [Piomelli, Rouhi and Geurts, Proc. ETMM10, 2014], in which the LES length scale was expressed in terms of the integral length-scale of turbulence determined by the flow characteristics and explicitly decoupled from the simulation grid; this approach was named Integral Length-Scale Approximation (ILSA). As in the original ILSA, the model coefficient was determined by the user, and required to maintain a desired contribution of the unresolved, subfilter scales (SFS) to the global transport. We propose a local formulation (local ILSA) in which the model coefficient is local in space, allowing a precise control over SFS activity as a function of location. This new formulation preserves the properties of the global model; application to channel flow and backward-facing step verifies its features and accuracy. |