### Session BE: Turbulence: Boundary Layers II

10:34 AM–12:44 PM, Sunday, November 18, 2007
Salt Palace Convention Center Room: 151 D-F

Chair: Beverley McKeon, California Institute of Technology

Abstract ID: BAPS.2007.DFD.BE.3

### Abstract: BE.00003 : Applicability of Townsend's similarity hypothesis to very-rough-wall channel flow

11:00 AM–11:13 AM

Preview Abstract MathJax On | Off   Abstract

#### Authors:

David M. Birch
(Department of Aeronautics, Imperial College London, U.K.)

Jonathan F. Morrison
(Department of Aeronautics, Imperial College London, U.K.)

There has been considerable recent interest in the scaling of turbulent flows over rough walls, and especially in the applicability of Townsend's similarity hypothesis to flows over walls with values of $k/\delta$ exceeding 2.5 \% (where $k$ is the mean wall-normal roughness height and $\delta$ is the outer length scale). In order to investigate outer-layer similarity under these very-rough wall conditions, an experimental study of the turbulent flow through a channel has been carried out using both a broadly distributed grit-type roughness with $k/h$ = 0.035 and $ku_{\tau}/\nu$ $\sim$ 200 (where $h$ is the channel half-height, $u_{\tau}$ is the wall friction velocity and $\nu$ is the kinematic viscosity) and a mesh-type roughness with $L_ {x}/L_{z}$ = 2.6, $k/h$ = 0.031 and $ku_{\tau}/\nu$ $\sim$ 190 (where $L_{x}$ and $L_{z}$ are the axial and spanwise mesh spacings, respectively). The channel flow in both cases is shown to be fully developed and statistically stationary, and the turbulence kinetic energy budgets are examined. Scaling of the Reynolds stresses is also examined and the behaviour of the higher-order statistics is compared with previous investigations. Single- and two-point velocity correlations are used to deduce the behaviour of the structures with special attention being given to the scaling of the spectra of the streamwise and wall-normal velocity components.

To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2007.DFD.BE.3