论文信息 - Boundary-layer flow and turbulence near porous obstacles

Boundary-layer flow and turbulence near porous obstacles

We derive a set of governing equations for flow through porous obstacles by employing a two-step averaging processes. The Navier-Stokes equations under the Boussinesq approximation that describe the air space of the porous obstacle are subjected to high-wavenumber a veraging, which leads to a set of high-frequency (wake) turbulence equations. We then use conventional Reynolds-averaging methods to obtain statistically steady mean and turbulence equations that include interactions between wake and shear turbulence. Our method provides a theoretical basis for the cascade of turbulent kinetic energy. We use this approach to analyze the constants and parameters of simpleK-theory and higher-order closure models. We also discuss qualitatively the theory of the turbulence energy generation process and the significance of interactions between different turbulent mechanisms.

Eugene S. Takle | E. Takle | Hao Wang | Hao Wang

[1] Stephen Whitaker,et al. The transport equations for multi-phase systems , 1973 .

[2] M. Raupach. Canopy Transport Processes , 1988 .

[3] John D. Wilson,et al. A second-order closure model for flow through vegetation , 1988 .

[4] N. Wilson,et al. A Higher Order Closure Model for Canopy Flow , 1977 .

[5] David R. Miller,et al. Air flow across an alpine forest clearing: A model and field measurements , 1991 .

[6] David R. Miller,et al. Air flow over and through a forest edge: A steady-state numerical simulation , 1990 .

[7] M. Raupach,et al. Averaging procedures for flow within vegetation canopies , 1982 .

[8] J. Finnigan,et al. Turbulent Transport in Flexible Plant Canopies , 1985 .

[9] Stephen Whitaker,et al. ADVANCES IN THEORY OF FLUID MOTION IN POROUS MEDIA , 1969 .

[10] M. Raupach,et al. Experiments on scalar dispersion within a model plant canopy part I: The turbulence structure , 1986 .

[11] R. Shaw,et al. Observation of organized structure in turbulent flow within and above a forest canopy , 1989 .

[12] John D. Wilson,et al. Numerical studies of flow through a windbreak , 1985 .