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You searched for: Author "Cassiani, M." Remove constraint Author: "Cassiani, M." Subject energy Remove constraint Subject: energy
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1. The Effects of Vegetation Density on Coherent Turbulent Structures within the Canopy Sublayer: A Large-Eddy Simulation Study

Author:
Cassiani, M.,   et al.   ; Huang, J.; Albertson, J. D.;     Show all 3 Authors
Source:
Boundary-layer meteorology 2009 v.133 no.2 pp. 253-275
ISSN:
0006-8314
Subject:
canopy; energy; mixing; statistics; terrestrial ecosystems; turbulent flow; vegetation
Abstract:
... Terrestrial ecosystems are characterized by a wide range of canopy vegetation density, which is known to affect turbulent transport processes across the canopy-atmosphere interface. In the presence of a dense and horizontally homogeneous canopy, the canopy sublayer has been described as resembling a plane mixing layer. At the other extreme, where the canopy is essentially absent, the canopy sublay ...
DOI:
10.1007/s10546-009-9423-1

2. Analysis of Coherent Structures Within the Atmospheric Boundary Layer

Author:
Cassiani, M.,   et al.   ; Huang, J.; Albertson, J. D.;     Show all 3 Authors
Source:
Boundary-layer meteorology 2009 v.131 no.2 pp. 147-171
ISSN:
0006-8314
Subject:
Earth atmosphere; eddy covariance; energy; mathematical models; turbulent flow
Abstract:
... Large-eddy simulation has become an important tool for the study of the atmospheric boundary layer. However, since large-eddy simulation does not simulate small scales, which do interact to some degree with large scales, and does not explicitly resolve the viscous sublayer, it is reasonable to ask if these limitations affect significantly the ability of large-eddy simulation to simulate large-scal ...
DOI:
10.1007/s10546-009-9357-7