Abstract
We address some of the methodological challenges associated with the measurement of turbulence and use of scintillometers in the urban roughness sub-layer (RSL). Two small-aperture scintillometers were located near the roof interface in a densely urbanized part of Basel, Switzerland, as part of the Basel Urban Boundary-Layer Experiment (BUBBLE) in the summer of 2002. Eddy correlation instruments were co-located near the mid-point of each scintillometer path for data verification purposes. The study presents the first values of the inner length scale of turbulence (l(0)) and the refractive index structure parameter of air (C-n(2)) for a city and demonstrates the influence of mechanical driven turbulence on dissipation. Comparison of dissipation values determined from the two approaches show large scatter that is possibly due to the spatial inhomogeneity of the turbulence statistics within the RSL. Velocity and temperature spectra display a - 2/3 slope in the inertial subrange, although the spectral ratio is less than the theoretical prediction of 4/3 expected for isotropy. Conventional Monin-Obukhov equations used to calculate fluxes from the scintillometer were replaced with urban forms of the equations. The results suggest that the scintillometer may be an appropriate tool for the measurement of sensible heat flux (Q(H)) above the rooftops given a suitable determination of the effective measurement height.
Original language | English |
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Pages (from-to) | 351-375 |
Number of pages | 25 |
Journal | Boundary-Layer Meteorology |
Volume | 121 |
Issue number | 2 |
DOIs | |
Publication status | Published - 1 Nov 2006 |
Keywords
- urban turbulence
- Monin-Obukhov similarity
- zero-plane displacement length
- roughness sublayer
- scintillometer