The placement of a flow control device is highly dependent on the designers’ experience and their view of the area where the device will be most effective. In this paper, the mesh adjoint approach is proposed to help the designer to identify the regions where drag is most sensitive to a change of the surface of a transonic wing and to assess the success of an optimization. An array of shock control bumps are deployed in the areas of high sensitivity and optimized using a gradient-based approach. In addition to the sensitivity in the shock regions, a nonshock region is also identified using the sensitivity map on the wing. This region is not apparent from surface flow properties, such as pressure or skin friction, and could be overlooked by a designer without the sensitivity map. The results show that the mesh adjoint approach successfully identifies drag sensitive areas on the wing and assists in the deployment of the bump arrays. The bumps are parameterized using class/shape function transformation, which provides a highly flexible design space, with a large number of design variables, to achieve an optimal solution.


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    Title :

    Using Surface Sensitivity from Mesh Adjoint for Transonic Wing Drag Reduction


    Contributors:

    Published in:

    AIAA Journal ; 55 , 3 ; 818-831


    Publication date :

    2016-11-24


    Size :

    14 pages




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English







    Using Surface Sensitivity from Mesh Adjoint Solution for Transonic Wing Drag Reduction (AIAA 2016-0560)

    Hinchliffe, Benjamin L. / Qin, Ning | British Library Conference Proceedings | 2016


    TRANSONIC DRAG REDUCTION ON A SUPERCRITICAL WING SECTION USING SHOCK

    Chai, J. / Che, H. / International Council of the Aeronautical Sciences; Optimage Ltd | British Library Conference Proceedings | 2012