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Wall-model integrated computational framework for large-eddy simulations of wall-bounded flows

Yu Lv, Xinyi Huang, Xiaolei Yang, Xiaolei Yang, Xiang I. A. Yang, Xiang I. A. Yang

2021Physics of Fluids16 citationsDOIOpen Access PDF

Abstract

The wall-modeled large-eddy simulation (WMLES) computational framework generally includes a wall-model solver outside the large-eddy simulation (LES) infrastructure, with the two solvers communicating only at the matching location and the wall. Having a wall-model solver outside the LES jeopardizes the performance of WMLES: first, the wall-model solver adds significant computational overhead; second, the LES solution in the wall-adjacent cell is ambiguous; and third, it is very difficult to utilize the emerging high-order numerical schemes. This paper addresses the above issues by abandoning wall-model solvers altogether and integrating wall models into LES solvers. We will employ a set of physics-inspired bases for LES solution reconstruction in the wall-adjacent cell. The methodology gives rise to a computational framework that effortlessly accounts for non-equilibrium effects in a high-order code without a stand-alone wall-model solver. We consider channel flow for a proof of concept and periodic hill for validation.

Topics & Concepts

SolverPhysicsLarge eddy simulationCode (set theory)Overhead (engineering)Set (abstract data type)Computational fluid dynamicsBounded functionComputational scienceApplied mathematicsComputer scienceMechanicsMathematical optimizationMathematical analysisTurbulenceMathematicsProgramming languageOperating systemFluid Dynamics and Turbulent FlowsFluid Dynamics and Vibration AnalysisLattice Boltzmann Simulation Studies
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