Litcius/Paper detail

Grid-Resolution Requirements for Large-Eddy Simulations of the Atmospheric Boundary Layer

Hauke Wurps, Gerald Steinfeld, Stefan Heinz

2020Boundary-Layer Meteorology70 citationsDOIOpen Access PDF

Abstract

Abstract Large-eddy simulations are widely used to study flows in the atmospheric boundary layer. As atmospheric boundary-layer flows of different atmospheric stratification have very different flow characteristics on different length scales, well-resolved simulations of these flows require very different meshes. The Parallelized Large-Eddy Simulation Model combined with a realizable dynamic subgrid model is used to identify the best method for evaluating the resolution requirements for boundary-layer flows simulated by large-eddy simulations. In particular, we consider three atmospheric boundary-layer set-ups with different stratifications (stable, neutral, convective) to investigate how the quality of the simulation changes with the grid resolution. By following the work of Davidson (Int J Heat Fluid Flow 30(5):1016–1025, 2009), the results are examined using criteria such as the convergence of mean profiles, the ratio of modelled and resolved turbulence kinetic energy, and the two-point correlation. We conclude that the two-point correlation is the best measure to evaluate whether the resolution demands for a specific flow are fulfilled.

Topics & Concepts

Large eddy simulationPlanetary boundary layerBoundary layerGridMechanicsTurbulenceTurbulence kinetic energyConvective Boundary LayerMeteorologyStratification (seeds)Flow (mathematics)Environmental sciencePhysicsGeometryMathematicsBotanySeed dormancyGerminationBiologyDormancyFluid Dynamics and Turbulent FlowsWind and Air Flow StudiesMeteorological Phenomena and Simulations