P5.2
Large Eddy Simulation of Neutral Atmospheric Boundary Layer Flow over Heterogeneous Surfaces: Blending Height and Effective Surface Roughness
Elie Bou-Zeid, Johns Hopkins University, Baltimore, MD; and M. Parlange and C. Meneveau
A new generation Large Eddy Simulation (LES), based on a Lagrangian scale-dependent dynamic subgrid model, is applied for the first time to atmospheric flow over heterogeneous land surfaces. This LES is faithful to the physics of the interaction of the lower atmosphere and the land surface based on classical validation tests of the simulated mean wind profile and the atmospheric turbulence. Simulations of the atmospheric boundary layer (ABL) over heterogeneous land surfaces with a range of characteristic length scales and random roughness distributions are performed with neutral stratification. The simulated mean wind profiles are analyzed to identify the height of the blending layer and used to develop a relationship between blending layer height and characteristic surface length scales. For hydrologic and atmospheric applications where the regional scale surface roughness needs to be known, the analysis is extended to derive an effective surface roughness knowing local surface patch roughness values.
Poster Session 5, Parameterizations for Oceans and Atmospheres
Tuesday, 10 August 2004, 5:30 PM-5:30 PM, Casco Bay Exhibit Hall
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