A discrete element prediction approach for turbulent flow over rough surfaces
Abstract
A discrete element model for turbulent flow over rough surfaces has been rigorously derived from basic principles. This model includes surface roughness effects as a constitutent part of the partial differential equations which describe momentum and energy transport in turbulent flows. The model includes the necessary empirical information on the interaction between the roughness elements and the flow around and between the elements in a general way which does not require experimental data on each specific surface. This empirical information is input via algebraic models for the local element drag coefficient and Nusselt number. These models were calibrated by comparison with base data sets from surfaces with three-dimensional (distributed) roughness elements. Calculations using the present model have been compared with experimental data from 118 separate experimental runs. The results of these comparisons ranged from good to excellent. The calculations compared equally well with both transitionally rough and fully rough turbulent flow results without modification of the roughness model.
- Publication:
-
Viscous and Interacting Flow Field Effects
- Pub Date:
- August 1984
- Bibcode:
- 1984viff.proc....1T
- Keywords:
-
- Energy Transfer;
- Gas Flow;
- Momentum;
- Surface Roughness;
- Turbulent Flow;
- Aerodynamic Drag;
- Calibrating;
- Mathematical Models;
- Partial Differential Equations;
- Fluid Mechanics and Heat Transfer