A Note On The Contribution Of Dispersive Fluxes To Momentum Transfer Within Canopies |
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| Authors: | D. Poggi G. G. Katul J. D. Albertson |
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| Affiliation: | (1) Dipartimento di Idraulica, Trasporti ed Infrastrutture Civili, Politecnico di Torino, Torino, Italy &;(2) Department of Civil And Environmental Engineering, Duke University, Durham, North Carolina, U.S.A;(3) Nicholas School of the Environment and Earth Sciences, Duke University, Durham, North Carolina, U.S.A |
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| Abstract: | Dispersive flux terms are formed when the time-averaged meanmomentum equation is spatially averaged within the canopy volume.These fluxes represent a contribution to momentum transfer arisingfrom spatial correlations of the time-averaged velocity componentswithin a horizontal plane embedded in the canopy sublayer (CSL).Their relative importance to CSL momentum transfer is commonlyneglected in model calculations and in nearly all fieldmeasurement interpretations. Recent wind-tunnel studies suggestthat these fluxes may be important in the lower layers of thecanopy; however, no one study considered their importance acrossall regions of the canopy and for a wide range of canopy roughnessdensities. Using detailed laser Doppler anemometry measurementsconducted in a model canopy composed of cylinders within a largeflume, we demonstrate that the dispersive fluxes are onlysignificant (i.e., >10%) for sparse canopies. These fluxes arein the same direction as the turbulent flux in the lower layers ofthe canopy but in the opposite direction near the canopy top. Fordense canopies, we show that the dispersive fluxes are <5% atall heights. These results appear to be insensitive to theReynolds number (at high Reynolds numbers). |
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| Keywords: | Canopy density Canopy turbulence Dispersive fluxes Mean momentum equation |
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