Theoretical prediction and design for vortex generators in turbulent boundary layers

F. T. Smith

doi:10.1017/S0022112094004210

Abstract

A theoretical study is presented of three-dimensional turbulent flow provoked in a boundary layer by an array of low-profile vortex generators (VGs) on the surface. The typical VG sits in the logarithmic region of the incident boundary layer, and the turbulence model used seems representative in this region. The governing equations yield a forward-marching three-dimensional vortex-type system, which is solved computationally and analytically for spanwise periodic VG arrays. Streamwise vortex patterns of various strengths are produced downstream, owing to three-dimensional distortion of the original logarithmic profile and to the turbulent stresses present. Predictions are given for certain basic VG shapes, e.g. triangular, with various spanwise spacings, and the predictions are found to agree favourably overall with recent experiments. In addition, the analytical formulae obtained prove useful in suggesting designs for favourable VG distributions, based on three factors: close spanwise packing, increased VG length, and suitably non-smooth spanwise shaping.

References

Bush, W. B. & Fendell, F. E. 1972 J. Fluid Mech. 56, 657–668.

Cebeci, T. & Smith, A. M. O. 1974 Analysis of Turbulent Boundary Layers. Academic.

Chima, R. V. & Yokota, J. W. 1989 AIAA J. 28 (5), 798–804.

Degani, A. T., Smith, F. T. & Walker, J. D. A. 1992 J. Fluid Mech. 234, 329–360.

Esmaili, H. & Piomelli, U. 1992 AIAA paper 92-0552.

Freestone, M. M. E.S.D.U. 1991/2 Transonic Aerodynamic Committee papers T729, T732, T733.

McCormick, D. C. 1992 AIAA paper 92-0064.

Mellor, G. L. 1972 Intl J. Engng Sci. 10, 851–873.

Mounts, J. S. & Barber, T. J. 1992 AIAA paper 92-0751.

Neish, A. & Smith, F. T. 1988 J. Engng Maths 22, 15–42.

Neish, A. & Smith, F. T. 1992 J. Fluid Mech. 241, 443–467.

Pearcey, H. H. 1961 Shock-Induced Separation and its Prevention by Design and Boundary Layer Control, Part IV of Boundary Layer and Flow Control, ed. G. V. Lachman.

Schubauer, G. B. & Spangenberg, W. G. 1960 J. Fluid Mech. 8, 10–32.

Vatsa, V. N. & Wedan, B. W. 1988 AIAA paper 88-0102.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Hutchins, Nicholas and Choi, Kwing-So 2001. Experimental investigation of turbulence suppression by the imposition of a large-scale vortical control flow.

Angele, K.P. and Muhammad-Klingmann, B. 2005. The effect of streamwise vortices on the turbulence structure of a separating boundary layer. European Journal of Mechanics - B/Fluids, Vol. 24, Issue. 5, p. 539.

Angele, K. P. and Grewe, F. 2007. Instantaneous Behavior of Streamwise Vortices for Turbulent Boundary Layer Separation Control. Journal of Fluids Engineering, Vol. 129, Issue. 2, p. 226.

Beresh, Steven Henfling, John and Spillers, Russell 2009. Meander of a Fin Trailing Vortex Measured using Particle Image Velocimetry.

VELTE, CLARA M. HANSEN, MARTIN O. L. and OKULOV, VALERY L. 2009. Helical structure of longitudinal vortices embedded in turbulent wall-bounded flow. Journal of Fluid Mechanics, Vol. 619, Issue. , p. 167.

Beresh, Steven J. Henfling, John F. and Spillers, Russell W. 2010. Meander of a fin trailing vortex and the origin of its turbulence. Experiments in Fluids, Vol. 49, Issue. 3, p. 599.

Aider, Jean-Luc Beaudoin, Jean-François and Wesfreid, José Eduardo 2010. Drag and lift reduction of a 3D bluff-body using active vortex generators. Experiments in Fluids, Vol. 48, Issue. 5, p. 771.

Lögdberg, Ola Angele, Kristian and Alfredsson, P. Henrik 2010. On the robustness of separation control by streamwise vortices. European Journal of Mechanics - B/Fluids, Vol. 29, Issue. 1, p. 9.

Lengani, Davide Simoni, Daniele Ubaldi, Marina Zunino, Pietro and Bertini, Francesco 2011. Turbulent boundary layer separation control and loss evaluation of low profile vortex generators. Experimental Thermal and Fluid Science, Vol. 35, Issue. 8, p. 1505.

Velte, Clara Marika 2013. Vortex Generator Flow Model Based on Self-Similarity. AIAA Journal, Vol. 51, Issue. 2, p. 526.

Fernández-Gámiz, U Zamorano, G and Zulueta, E 2014. Computational study of the vortex path variation with the VG height. Journal of Physics: Conference Series, Vol. 524, Issue. , p. 012024.

Fernández, U Velte, Clara M Réthoré, P-E and Sørensen, N N 2014. Self-Similarity and helical symmetry in vortex generator flow simulations. Journal of Physics: Conference Series, Vol. 555, Issue. , p. 012036.

Velte, Clara M. Hansen, Martin O.L. and Okulov, Valery L. 2016. Multiple vortex structures in the wake of a rectangular winglet in ground effect. Experimental Thermal and Fluid Science, Vol. 72, Issue. , p. 31.

Fernández‐Gámiz, Unai Marika Velte, Clara Réthoré, Pierre‐Elouan Sørensen, Niels N. and Egusquiza, Eduard 2016. Testing of self‐similarity and helical symmetry in vortex generator flow simulations. Wind Energy, Vol. 19, Issue. 6, p. 1043.

Fouatih, Omar Madani Medale, Marc Imine, Omar and Imine, Bachir 2016. Design optimization of the aerodynamic passive flow control on NACA 4415 airfoil using vortex generators. European Journal of Mechanics - B/Fluids, Vol. 56, Issue. , p. 82.

Urkiola, A. Fernandez-Gamiz, U. Errasti, I. and Zulueta, E. 2017. Computational characterization of the vortex generated by a Vortex Generator on a flat plate for different vane angles. Aerospace Science and Technology, Vol. 65, Issue. , p. 18.

Martínez-Filgueira, P. Fernandez-Gamiz, U. Zulueta, E. Errasti, I. and Fernandez-Gauna, B. 2017. Parametric study of low-profile vortex generators. International Journal of Hydrogen Energy, Vol. 42, Issue. 28, p. 17700.

de Oliveira, Gael Kotsonis, Marios and van Oudheusden, Bas 2017. Boundary and Interior Layers, Computational and Asymptotic Methods BAIL 2016. Vol. 120, Issue. , p. 63.

Hansen, Martin O. L. Charalampous, Antonis Foucaut, Jean-Marc Cuvier, Christophe and Velte, Clara M. 2019. Validation of a Model for Estimating the Strength of a Vortex Created from the Bound Circulation of a Vortex Generator. Energies, Vol. 12, Issue. 14, p. 2781.

Fouatih, Omar Madani Imine, Bachir and Medale, Marc 2019. Numerical/experimental investigations on reducing drag penalty of passive vortex generators on a NACA 4415 airfoil. Wind Energy, Vol. 22, Issue. 7, p. 1003.

Download full list

Article contents

Theoretical prediction and design for vortex generators in turbulent boundary layers

Abstract

Access options

References

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Theoretical prediction and design for vortex generators in turbulent boundary layers

Abstract

Access options

References

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests