Velocity and pressure fields associated with near-wall turbulence structures
Abstract
Computer generated databases containing velocity and pressure fields in three-dimensional space at a sequence of time-steps, were used for the investigation of near-wall turbulence structures, their space-time evolution, and their associated pressure fields. The main body of the results were obtained from simulation data for turbulent channel flow at a Reynolds number of 180 (based on half-channel height and friction velocity) with a grid of 128 x 129 x and 128 points. The flow was followed over a total time of 141 viscous time units. Spanwise centering of the detected structures was found to be essential in order to obtain a correct magnitude of the associated Reynolds stress contribution. A positive wall-pressure peak is found immediately beneath the center of the structure. The maximum amplitude of the pressure pattern was, however, found in the buffer region at the center of the shear-layer. It was also found that these flow structures often reach a maximum strength in connection with an asymmetric spanwise motion, which motivated the construction of a conditional sampling scheme that preserved this asymmetry.
- Publication:
-
Near-Wall Turbulence
- Pub Date:
- 1990
- Bibcode:
- 1990nrw..book..368J
- Keywords:
-
- Channel Flow;
- Turbulent Boundary Layer;
- Velocity Distribution;
- Wall Flow;
- Wall Pressure;
- Computational Grids;
- Computer Techniques;
- Data Bases;
- Pressure Distribution;
- Reynolds Stress;
- Shear Layers;
- Fluid Mechanics and Heat Transfer