Developments in the computation of turbulent boundary layers
Abstract
Computational techniques applicable to turbulent boundary layers are classified into solutions of Reynolds-averaged equations, in which all the effects of the turbulence are modelled, and solutions of three-dimensional, time dependent Navier-Stokes equations, in which the large eddies are calculated and only the turbulence at scales smaller than the computational mesh spacings has to be modelled. Current computation costs place engineering computations in the first of these categories; large eddy simulations are appropriate currently for special studies of the dynamical processes of turbulence in idealized flow fields. It is shown that the two methods are interrelated and that each can gain from advances in the other. The degree of success of a pair of increasingly complex Reynolds stress models to broaden their range of applicability is examined through comparisons with experimental data for a variety of flow conditions. An example of a large-eddy simulation is presented, compared with experimental results, and used to evaluate the models for pressure rate-of-strain correlations and dissipation in the Reynolds-averaged equations.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- September 1979
- Bibcode:
- 1979STIN...7933433R
- Keywords:
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- Boundary Layers;
- Numerical Flow Visualization;
- Reynolds Equation;
- Turbulent Flow;
- Flow Distribution;
- Pressure Distribution;
- Vortices;
- Fluid Mechanics and Heat Transfer