论文信息 - The critical Reynolds number for rough-wall boundary layers

The critical Reynolds number for rough-wall boundary layers

Rough-wall boundary layers become aerodynamically smooth if the ‘roughness Reynolds number’ Re*=u*z0/? becomes sufficiently small. Conventional wisdom is that Re* should exceed at least two and perhaps be as much as five before viscous effects are insignificant. This criterion is assessed for the types of rough wall commonly used in laboratory simulations of atmospheric boundary layers—arrays of sharp-edged obstacles with significant separation between each obstacle. It is demonstrated that for such surfaces the roughness length z0 remains constant for falling roughness Reynolds numbers down to at least Re*=1. Viscous effects are shown to change the near-wall Reynolds stresses only for Re* below similar values, so that z0-scaling (rather than scaling based on ?/u*) remains appropriate down to at least Re*=1. One of the practical implications of this result is that wind-tunnel simulations of atmospheric boundary layers can be successful at lower wind speeds (or with smaller roughness elements) than previously supposed.

William H. Snyder | I. P. Castro | W. Snyder | Ian P. Castro

[1] A. Perry,et al. An experimental study of the turbulence structure in smooth- and rough-wall boundary layers , 1987, Journal of Fluid Mechanics.

[2] Timothy R. Oke,et al. Aerodynamic Properties of Urban Areas Derived from Analysis of Surface Form , 1999 .

[3] M. Schatzmann,et al. Experiments with heavy gas jets in laminar and turbulent cross-flows , 1993 .

[4] Promode R. Bandyopadhyay,et al. Rough-wall turbulent boundary layers in the transition regime , 1987, Journal of Fluid Mechanics.

[5] R. A. Antonia,et al. Rough-Wall Turbulent Boundary Layers , 1991 .

[6] N. J. Cook,et al. Wind-tunnel simulation of the adiabatic atmospheric boundary layer by roughness, barrier and mixing-device methods , 1978 .

[7] H. Schlichting. Boundary Layer Theory , 1955 .

[8] W. Snyder,et al. The yaw response of hot-wire probes at ultra-low wind speeds , 1998 .

[9] K. W. Steinberg,et al. Overview of Petroleum Environmental Research Forum (PERF) dense gas dispersion modeling project , 2001 .

[10] Peter Bradshaw. A note on “critical roughness height” and “transitional roughness” , 2000 .

[11] G. Wiggs,et al. Pulsed-wire anemometry on rough surfaces, with application to desert sand dunes , 1994 .