Hybrid large‐eddy simulation with adaptive downstream anisotropic eddy viscosity model

Abstract: Turbulence pervades most flows of engineering interest, and its prediction remains a challenge on both accuracy and cost. One promising predictive approach that reduces cost combines large-eddy simulation (LES) with simulation based on Reynolds averaged Navier-Stokes equations (RANS). This study presents a method to overcome stability and accuracy issues associated with these hybrid LES-RANS methods. The method developed involves extracting the Reynolds stresses from the upstream LES solution and then using th… Show more

“…In this study, steady RANS was used from x = −115D to −15D, and LES was used at x = −5D and downwards. The density-weighted Reynolds-averaged and spatially-filtered continuity, momentum, and energy equations for RANS and for LES can be written as [24]…”

Strongly Heated Turbulent Flow in a Channel with Pin Fins

“…In this study, steady RANS was used from x = −115D to −15D, and LES was used at x = −5D and downwards. The density-weighted Reynolds-averaged and spatially-filtered continuity, momentum, and energy equations for RANS and for LES can be written as [24]…”

Strongly Heated Turbulent Flow in a Channel with Pin Fins

Review on fluid forces and their action on centrifugal pump impeller

Improved hybrid model for transitional separated flows over a rough compressor blade