Proceedings ArticleDOI
Performance of large-eddy breakup devices at post-transitional Reynolds numbers
John B. Anders,J. N. Hefner,D. M. Bushnell +2 more
- Vol. 22
TLDR
In this paper, largeeddy alteration techniques were used to modify the drag characteristics of the turbulent boundary layer and local skin-friction coefficients were measured for single and multi-element arrays of thin plates suspended in a fully turbulent, flat plate, boundary layer at R(theta) = 3,000.Abstract:
Large-eddy alteration techniques were used to modify the drag characteristics of the turbulent boundary layer. Local skin-friction coefficients were measured for single and multi-element arrays of thin plates suspended in a fully turbulent, flat plate, boundary layer at R(theta) = 3,000. Effects of these devices were measured more than 300 boundary-layer thicknesses downstream to R(theta) = 17,000. It was found that although most of the devices reduced the local skin friction immediately downstream, this reduced skin-friction region persisted for only 100-120 delta-0, after which a rapid rise in skin-friction coefficient occurred, often exceeding flat plate values. Net drag reductions were obtained only for tandem configurations and these reductions were sensitive to device spacing and height. The maximum net drag reduction reported was approximately 7 percent with a device spacing of 10 delta-0 at a height of 0.8 delta-0.read more
Citations
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Journal ArticleDOI
Turbulent drag reduction research at NASA langley: progress and plans☆
TL;DR: In this article, NASA-Langley research efforts planned at NASA Langley in view of results obtained to date in passive turbulent drag reduction experiments are discussed, including heat transfer-augmentation, noise-reduction, turboprop/fuselage interaction noise reduction, and other advantages.
Journal ArticleDOI
Riblet/LEBU research at NASA Langley
Michael J. Walsh,John B. Anders +1 more
TL;DR: In this paper, the current status of the riblet and LEBU research at NASA Langley is summarized and correlated for riblets, in particular, available Riblet film data.
Book ChapterDOI
Introduction to Flow Control
TL;DR: In this chapter classical tools of flow control are emphasized, leaving the more modern strategies to the following chapter, and a unified view of the means by which different methods of control achieve a variety of end results is presented.
Airfoil large-eddy breakup devices for turbulent drag reduction
TL;DR: In this paper, it was determined from the present LaRC experiments that tandem, airfoil-shaped large eddy breakup (LEBU) devices can reduce local skin friction as much as 30 percent with a recovery region extending more than 100 boundary layer thicknesses downstream.
Proceedings ArticleDOI
Airfoil large-eddy breakup devices for turbulent drag reduction
J. Anders,R. Watson +1 more
References
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Proceedings ArticleDOI
Turbulent drag reduction for external flows
TL;DR: A review and summary of turbulent drag reduction approaches applicable to external flows can be found in this paper, where the authors focus on the emerging areas of nonplanar geometry and large eddy alteration.
Proceedings ArticleDOI
Alteration of outer flow structures for turbulent drag reduction
TL;DR: In this article, the authors present a survey of turbulent wall layers subjected to abrupt changes in boundary conditions and identify several methods with potential for altering the turbulence production process in the outer region of the boundary layer and reducing the turbulent skin-friction drag over relatively long downstream distances.