Tan Zhemin, Wang Yuan. 2002: Wind Structure in an Intermediate Boundary Layer Model Based on Ekman Momentum Approximation. Adv. Atmos. Sci, 19(2): 266-278., https://doi.org/10.1007/s00376-002-0021-0
Citation: Tan Zhemin, Wang Yuan. 2002: Wind Structure in an Intermediate Boundary Layer Model Based on Ekman Momentum Approximation. Adv. Atmos. Sci, 19(2): 266-278., https://doi.org/10.1007/s00376-002-0021-0

Wind Structure in an Intermediate Boundary Layer Model Based on Ekman Momentum Approximation

  • A quasi three-dimensional, intermediate planetary boundary layer (PBL) model is developed by including inertial acceleration with the Ekman momentum approximation, but a nonlinear eddy viscosity (1993). The model could keep the same complexity as the classical Ekman model in numerical, but extends the conventional Ekman model to include the horizontal accelerated flow with the Ekman momentum approximation. A comparison between this modified Ekman model and other simplified accelerating PBL models is made. Results show that the Ekman model overestimates (underestimates) the wind speed and pumping velocity in the cyclonic (anticyclonic) shear flow due to the neglect of the acceleration flow, however, the semi-geostrophic Ekman model overestimates the acceleration effects resulting from the underestimating (overestimating) of the wind speed and pumping velocity in the cyclonic (anticyclonic) shear flow. The Ekman momentum approximation boundary layer model could be applied to the baroclinic atmosphere.The baroclinic Ekman momentum approximation boundary layer solution has both features of classical baroclinic Ekman layer and the Ekman momentum approximate boundary lager.
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