Coherence and Scale of Vertical Velocity in the Convective Boundary Layer from a Doppler Lidar |
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Authors: | Marie Lothon Donald H. Lenschow Shane D. Mayor |
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Affiliation: | (1) National Center for Atmospheric Research, Boulder, Colorado, USA;(2) Present address: Laboratoire d’Aérologie, Toulouse, CNRS, Centre de Recherches Atmosphériques, 8 route de Lannemezan, 65300 Campistrous, France |
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Abstract: | We utilized a Doppler lidar to measure integral scale and coherence of vertical velocity w in the daytime convective boundary layer (CBL). The high resolution 2 μm wavelength Doppler lidar developed by the NOAA Environmental Technology Laboratory was used to detect the mean radial velocity of aerosol particles. It operated continuously in the zenith-pointing mode for several days in the summer 1996 during the “Lidars in Flat Terrain” experiment over level farmland in central Illinois. We calculated profiles of w integral scales in both the alongwind and vertical directions from about 390 m height to the CBL top. In the middle of the mixed layer we found, from the ratio of the w integral scale in the vertical to that in the horizontal direction, that the w eddies are squashed by a factor of about 0.65 as compared to what would be the case for isotropic turbulence. Furthermore, there is a significant decrease of the vertical integral scale with height. The integral scale profiles and vertical coherence show that vertical velocity fluctuations in the CBL have a predictable anisotropic structure. We found no significant tilt of the thermal structures with height in the middle part of the CBL.The National Center for Atmospheric Research is sponsored by the National Science Foundation. |
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Keywords: | Coherence Convective boundary layer Integral scale Lidar Turbulence |
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