Boundary-layer receptivity and laminar-flow airfoil design
- Author
- Kerschen, Edward J.
- Published
- Dec 1, 1987.
- Physical Description
- 1 electronic document
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Free-to-read Unrestricted online access - Summary
- Boundary-layer receptivity examines the way in which external disturbances generate instability waves in boundary layers. Receptivity theory is complementary to stability theory, which studies the evolution of disturbances that are already present in the boundary layer. A transition prediction method which combines receptivity with linear stability theory would directly account for the influence of free-stream disturbances and also consider the characteristics of the boundary layer upstream of the neutral stability point. The current e sup N transition prediction methods require empirical correlations for the influence of environmental disturbances, and totally ignore the boundary layer characteristics upstream of the neutral stability point. The regions where boundary-layer receptivity occurs can be separated into two classes, one near the leading edges and the other at the downstream points where the boundary layer undergoes rapid streamwise adjustments. Analyses were developed for both types of regions, and parametric studies which examine the relative importance of different mechanisms were carried out. The work presented here has focused on the low Mach number case. Extensions to high subsonic and supersonic conditions are presently underway.
- Other Subject(s)
- Collection
- NASA Technical Reports Server (NTRS) Collection.
- Note
- Document ID: 19900003200.
Accession ID: 90N12516.
NASA, Langley Research Center, Research in Natural Laminar Flow and Laminar-Flow Control, Part 1; p 273-287. - Terms of Use and Reproduction
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