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Turbulence modelling

Published online by Cambridge University Press:  04 July 2016

A. B. Haines
A. B. Haines*
Affiliation:
ARA Bedford
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Abstract

An informal Working Party was set up in October 1980 to review the present state-of-the-art in turbulence modelling for aeronautical applications and to make recommendations for future progress in this field. The report assesses the extent to which further developments in design and prediction methods for both external and internal flow are dependent on achieving advances in turbulence modelling and considers how these improvements realistically could be obtained. Reference is made to the conclusions from an international symposium on the same topic held at Stanford University, California in 1980-81.

Type
Research Article
Information
The Aeronautical Journal , Volume 86 , Issue 857 , September 1982 , pp. 269 - 277
Copyright
Copyright © Royal Aeronautical Society 1982 

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References

1. Jones, W. P. and Launder, B. E. The prediction of laminarisation with a two-equation model of turbulence. International Journal of Heat and Mass Transfer, 1972, 15, 301314.Google Scholar
2. Launder, B. E. and Spalding, D. B. The numerical computation of turbulent flows. Computer Methods in Applied Mechanics and Engineering, 1974, 3, 269289.Google Scholar
3. Rodi, W. A new algebraic relation for calculating the Reynolds stresses. Zamm, 1976, 56, 219221.Google Scholar
4. Launder, B. E. A generalised algebraic stress transport hypothesis. AIAA Journal, March 1982, 20.Google Scholar
5. Hanjalic, K. and Launder, B. E. A Reynolds stress model of turbulence and its application to thin shear flows. Journal of Fluid Mechanics, 1972, 52, 609638.Google Scholar
6. Launder, B. E., Reece, G. J. and Rodi, W. Progress in the development of a Reynolds-stress turbulence closure. Journal of Fluid Mechanics, 1975, 68, 537566.Google Scholar
7. Deardorff, J. W. A numerical study of three-dimensional turbulent channel flow at large Reynolds number. Journal of Fluid Mechanics, 1970, 41, 453.Google Scholar
8. Schumann, U. Subgrid scale model for finite difference simulations of turbulent flow in plane channels and annuli. Journal of Computational Physics, 1975, 18, 376.Google Scholar
9. Kim, J. and Moin, P. Large eddy simulation of turbulent channel flow — ILLIAC IV calculation. Paper 14, Proceedings of AGARD Conference ‘Turbulent Boundary Layers — Experiments, Theory and Modelling’, AGARD-CP-271, 1979.Google Scholar
10. Clark, R. A., Ferziger, J. H. and Reynolds, W. C. Evaluation of subgrid-scale turbulence models using a fully simulated turbulent flow. Report TF-9 Thermosciences Division, Department of Mechanical Engineering, Stanford University, Stanford, California, March 1977.Google Scholar
11. Green, J. E., Weeks, D. J. and Brooman, J. W. F. Prediction of turbulent boundary layers and wakes in compressible flow by a lag-entrainment method. ARC R&M 3791, 1973.Google Scholar
12. Bradshaw, P., Ferriss, D. H. and Atwell, N. P. Calculation of boundary-layer development using the turbulent energy equation. Journal of Fluid Mechanics, 1967, 28, 3 593–616.Google Scholar
13. Bradshaw, P. and Ferriss, D. H. Calculation of boundary-layer development using the turbulent energy equation: compressible flow on adiabatic walls. Journal of Fluid Mechanics, 1971, 46 1 83110.Google Scholar
14. Lock, R. C. and Firmin, M. C. P. Survey of techniques for estimating viscous effects in external aerodynamics. IMA Conference on Aeronautical Fluid Dynamics, Reading University, 30th March-lst April 1981.Google Scholar
15. Forest, A. E. Engineering prediction of transitional boundary layers. AGARD-CP-224, Laminar-Turbulent Transition, 1977.Google Scholar
16. White, A. J. The prediction of the flow and heat transfer in the vicinity of a jet in cross-flow. ASME 80-WA/HT-26, 1980.Google Scholar
17. Jones, W. P. and Priddin, C. H. Predictions of the flow field and local gas composition in gas turbine combustors. Proc. 17th International Combustion Symposium, Leeds, 1979.Google Scholar
18. Bradshaw, P. Turbulence. Science Progress, Oxford. 1981, 67, 185204.Google Scholar
19. Rodi, W. Turbulence models — a state of the art review. International Association for Hydraulic Research, 1981.Google Scholar
20. Bradshaw, P., Cebeci, T. and Whitelaw, J. H. Engineering calculation methods for turbulent flow, Academic Press, London, 1981.Google Scholar
21. Rotta, J. Statistische Theorie nighthomogener Turbulenz. Z Phys, 129, 547, 1951.Google Scholar