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Grid-point and time-step requirements for direct numerical simulation and large-eddy simulation

Xiang I. A. Yang, Kevin P. Griffin

2021Physics of Fluids178 citationsDOIOpen Access PDF

Abstract

We revisit the grid-point requirement estimates in Choi and Moin [“Grid-point requirements for large eddy simulation: Chapman’s estimates revisited,” Phys. Fluids 24, 011702 (2012)] and establish more general grid-point requirements for direct numerical simulations (DNS) and large-eddy simulations (LES) of a spatially developing turbulent boundary layer. We show that by allowing the local grid spacing to scale with the local Kolmogorov length scale, the grid-point requirement for DNS of a spatially developing turbulent boundary layer is N∼ReLx2.05 rather than N∼ReLx2.64, as suggested by Choi and Moin, where N is the number of grid points and Lx is the length of the plate. In addition to the grid-point requirement, we estimate the time-step requirement for DNS and LES. We show that for a code that treats the convective term explicitly, the time steps required to get converged statistics are Nt∼ReLx/Rex06/7 for wall-modeled LES and Nt∼ReLx/Rex01/7 for wall-resolved LES and DNS (with different prefactors), where Rex0 is the inlet Reynolds number. The grid-point and time-step requirement estimates allow us to estimate the overall cost of DNS and LES. According to the present estimates, the costs of DNS, wall-resolved LES, and wall-modeled LES scale as ReLx2.91, ReLx2.72, and ReLx1.14, respectively.

Topics & Concepts

PhysicsDirect numerical simulationTurbulenceLarge eddy simulationGridBoundary (topology)Scale (ratio)Reynolds numberMechanicsBoundary layerTerm (time)Statistical physicsApplied mathematicsBoundary value problemComputer simulationInletScale modelComputational fluid dynamicsConvectionCode (set theory)Mesh generationNumerical analysisComputational scienceLength scaleAerospace engineeringFluid Dynamics and Turbulent FlowsComputational Fluid Dynamics and AerodynamicsWind and Air Flow Studies
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