Tangling Turbulence and Semi-Organized Structures in Convective Boundary Layers |
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| Authors: | T Elperin N Kleeorin I Rogachevskii S S Zilitinkevich |
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| Institution: | (1) The Pearlstone Centre for Aeronautical Engineering Studies, Department of Mechanical Engineering, The Ben-Gurion University of the Negev, POB 653, Beer-Sheva, 84105, Israel;(2) Division of Atmospheric Sciences, Department of Physical Sciences, University of Helsinki and Finnish Meteorological Institute, Vuorikatu15A, P.O. Box 503, 00101 Helsinki, Finland;(3) Nansen Environmental and Remote Sensing Centre/Bjerknes Centre for Climate Research, NO-5059 Bergen, Norway |
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| Abstract: | A new mean-field theory of turbulent convection is developed based on the idea that only the small-scale region of the spectrum is considered as turbulence, whereas its large-scale part, including both regular and semi-organized motions, is treated as the mean flow. In the shear-free regime, this theory predicts the convective wind instability, which causes the formation of large-scale semi-organized motions in the form of cells. In the presence of wind shear, the theory predicts another type of instability, which causes the formation of large-scale semi-organized structures in the form of rolls and the generation of convective-shear waves propagating perpendicular to the convective rolls. The spatial characteristics of these structures, such as the minimum size of the growing perturbations and the size of perturbations with the maximum growth rate, are determined. This theory might be useful for understanding the origin of large-scale cells and rolls observed in the convective boundary layer and laboratory turbulent convection |
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| Keywords: | Convective boundary layer Semi-organized structures Turbulent convection |
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