The linear stability equations for compressible, three-dimensional laminar boundary layer flow are derived in an orthogonal curvilinear coordinate system. The system of equations is solved using a finite difference scheme in order to study the effects of streamline and surface curvature and compressibility on the stability of the flow past a swept wing. It is known that convex surface curvature can have a stabilizing effect on the laminar boundary layer. Conversely, concave surface curvature can be destabilizing. The magnitude of these effects for swept wing flows is determined. Results indicate that amplification rates and hence, N-factors, for the flow over the convex upper surface of a swept wing can be reduced by about 15 to 45 percent when curvature effects are included in the linear stability analysis. The results of the calculations show that concave curvature destabilizes 'crossflow' type disturbances with a significant increase in amplification rate. In addition, comparisons are made with some experimental results on a swept concave-convex surface. Calculated velocity vector plots show good agreement with observed disturbances in the laminar boundary layer over the concave surface.


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    Title :

    Curvature effects on the stability of three-dimensional laminar boundary layers


    Additional title:

    Einfluesse der Kruemmung auf die Stabilitaet dreidimensionaler, laminarer Grenzschichten


    Contributors:


    Publication date :

    1989


    Size :

    15 Seiten, 21 Bilder, 2 Tabellen, 24 Quellen


    Type of media :

    Conference paper


    Type of material :

    Print


    Language :

    English