Litcius/Paper detail

The Mean Wind and Potential Temperature Flux Profiles in Convective Boundary Layers

Luoqin Liu, Srinidhi N. Gadde, Richard J. A. M. Stevens

2023Journal of the Atmospheric Sciences12 citationsDOIOpen Access PDF

Abstract

Abstract We develop innovative analytical expressions for the mean wind and potential temperature flux profiles in convective boundary layers (CBLs). CBLs are frequently observed during daytime as Earth’s surface is warmed by solar radiation. Therefore, their modeling is relevant for weather forecasting, climate modeling, and wind energy applications. For CBLs in the convective-roll-dominated regime, the mean velocity and potential temperature in the bulk region of the mixed layer are approximately uniform. We propose an analytical expression for the normalized potential temperature flux profile as a function of height, using a perturbation method approach in which we employ the horizontally homogeneous and quasi-stationary characteristics of the surface and inversion layers. The velocity profile in the mixed layer and the entrainment zone is constructed based on insights obtained from the proposed potential temperature flux profile and the convective logarithmic friction law. Combining this with the well-known Monin–Obukhov similarity theory allows us to capture the velocity profile over the entire boundary layer height. The proposed profiles agree excellently with large-eddy simulation results over the range of − L / z 0 ∈ [3.6 × 10 2 , 0.7 × 10 5 ], where L is the Obukhov length and z 0 is the roughness length.

Topics & Concepts

Convective Boundary LayerPotential temperaturePlanetary boundary layerConvectionMechanicsBoundary layerWind speedRoughness lengthPhysicsMeteorologyAtmospheric sciencesLog wind profileComputational physicsWind shearWind profile power lawWind gradientFluid Dynamics and Turbulent FlowsWind and Air Flow StudiesAerodynamics and Fluid Dynamics Research