Hostname: page-component-7479d7b7d-qlrfm Total loading time: 0 Render date: 2024-07-10T13:31:09.906Z Has data issue: false hasContentIssue false
  • English
  • Français

Three-dimensional turbulent boundary layers in external flows: a report on Euromech 60

Published online by Cambridge University Press:  29 March 2006

T. K. Fanneløp  and
P. Å. Krogstad
T. K. Fanneløp
Affiliation:
Division of Aero- and Gas-Dynamics, The Technical University of Norway, Trondheim
P. Å. Krogstad
Affiliation:
Division of Aero- and Gas-Dynamics, The Technical University of Norway, Trondheim
Get access Rights & Permissions [Opens in a new window]

Abstract

Euromech 60 is the third in a series of European Mechanics Colloquia dealing primarily with three-dimensional turbulent boundary layers. The Colloquium was held in Trondheim at the Technical University (NTH) from 14–16 April 1975 with forty-two participants from ten different countries, and was organized by L. N. Persen and T. K. Fanneløp. A total of 23 papers were presented, dealing with both experiments on and predictions of turbulent boundary-layer flows and related topics. Those concerned with the development of prediction methods were challenged by a set of boundary-layer flow problems defined well in advance in order to be calculated prior to the Colloquium. The results show close agreement for some calculated variables and surprisingly large discrepancies in others. A brief account of this exercise is included and it will also be the subject of a special report.

Type
Research Article
Information
Journal of Fluid Mechanics , Volume 71 , Issue 4 , 28 October 1975 , pp. 815 - 826
Copyright
© 1975 Cambridge University Press

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Berg, B. Van Den & Elsenaar, A. 1972 Measurements in a three-dimensional turbulent boundary layer under swept-wing conditions. N.L.R. Amst. Tech. Rep. no. 72092.Google Scholar
Bernard, J. P. Modélisation de la couche limite tridimensionelle turbulente et le rôle de la fonction d'entrainement.
Bertelrud, A. Wind-tunnel measurements of the flow around the outer part of a swept wing.
Cousteix, J. 1974 Analyse théorique et moyens de prévision de la couche limite turbulent tridimensionelle. D.Sc. thesis, University of Paris.
Cousteix, J. & Michel, R. Theoretical analysis and prediction of three-dimensional turbulent boundary layers.
East, L. F. Progress report on the double split-film probe.
East, L. F.1975 Computation of three-dimensional turbulent boundary layers. Euromech 60, Trondheim. To be published.Google Scholar
Elsenaar, A. & Boelsma, S. H.1974 Measurements of the Reynolds stress tensor in a three-dimensional turbulent boundary layer under infinite swept wing conditions. N.L.R. Amst. Tech. Rep. no. 74095U.Google Scholar
Fannelop, T. K. & Humphreys, D. 1975 The solution of the laminar and turbulent three-dimensional boundary layer equations with a simple finite difference technique. F.F.A., Aero. Res. Inst. Sweden, Stockholm, Rep. no. 126.Google Scholar
Fernholz, H. From Euromech 33 to Euromech 60. A personal view of progress (or lack of it) in three-dimensional boundary-layer research Grande, G. De Three-dimensional turbulent boundary-layer decay Hess, J. L. & SMITH, A. M. O. 1967 Calculation of potential flow about arbitrary bodies. Prog. Aero. Sci. 8, 1138.
Hirschel, E. H. Transition criteria for three-dimensional boundary layers
Humphreys, D. Approximations in three-dimensional turbulent boundary layer calculations
Krause, E. & Kordulla, W. Investigation of three-dimensional boundary layers on swept wings
Krogstad, P. A. Three-dimensional viscous flow fields driven by simple two-dimensional potential flows
Kux, J. & Hoffmann, H. P. The boundary layer on a model ship hull
Larsson, L. 1974 Boundary layers of ships. Part III. An experimental investigation of the turbulent boundary layer on a ship model. Rep. Swedish State Ship Building Exp. Tank, GothenburgGoogle Scholar
Larsson, L. Measurements and calculations of the three-dimensional turbulent boundary layer on a ship model
Launder, B. E. & Spalding, D. B. 1972 Mathematical Models of Turbulence. Academic
Michel, R., Cousteix, J. & Quemard, C. 1971 Application d'un schéma améliore de longueur de mélange à l’étude des couches limites turbulentes tridimensionelles. Specialists’ Meeting on Turbulent Shear Flows, London, paper 7 (AGARD Conf. Proc. no. 93)Google Scholar
Myring, D. B. 1970 An integral prediction method for three-dimensional turbulent boundary layers in incompressible flow. R.A.E. Tech. Rep. no. 70/47Google Scholar
Palm, E. On the breakdown of streamwise vortices
Patankar, S. V. & Spalding, D. B. 1972 A calculation procedure for heat, mass and momentum transfer in three-dimensional parabolic flows. J. Heat Mass Transfer, 15, 1787180.Google Scholar
Persen, L. N.1970 Streamwise directed vortices and crosshatched surfaces of reentry vehicles. J. Spacecraft Rockets, 7, 10811.Google Scholar
Persen, L. N. 1971 Surface patterns of ablating bodies studied by means of water experiment simulation. Z. Flugwiss. 19, 360373Google Scholar
Persen, L. N. Can we learn from streamwise directed vortices?
Rodi, W., Rastogi, A. K., Singhal, A. K. & Spalding, D. B. Application of the k, turbulence model to the prediction of three-dimensional external boundary layers
Schmitt, V. & Cousteix, J. Experimental and theoretical study of three-dimensional phenomena related to the development of boundary layers on a swept wing up to high angles of attack
Schneider, G. A finite-difference method with a mixing-length hypothesis for the calculation of three-dimensional incompressible turbulent boundary layers
Smith, P. D.1974 An integral prediction method for three-dimensional compressible turbulent boundary layers. Aero. Res. Counc. R. & M. no. 373.Google Scholar
Smith, P. D. Calculation methods for three-dimensional turbulent boundary layers
Spalding, D. B. Calculation procedure for three-dimensional parabolic and partially parabolic flows
Thomann, H. Three-dimensional effects in a ‘two-dimensional’ boundary layer
Vermeulen, A. J. 1971 Measurements of three-dimensional turbulent boundary layers. Ph.D. thesis, University of Cambridge
White, F. M. & Christoph, G. H. 1971 A simple analysis of two-dimensional turbulent skin friction with arbitrary wall and freestream conditions. Specialists’ Meeting on Turbulent Shear Flows, London, paper 20 (AGARD Conf. Proc. no. 93)Google Scholar
White, F. M., Christoph, G. H. & Lessmann, R. C.1975 A three-dimensional integral method for calculating incompressible turbulent skin friction. A.S.M.E. no. 75.FE-26.Google Scholar