The flow past a 60° delta wing equipped with two thrust-reverser jets near the inboard trailing edge has been analyzed by numerical solution of the three-dimensional thin-layer Navier-Stokes equations. An implicit, partially flux-split, approximately-factored Navier-Stokes solver coupled with a multiple grid embedding scheme has been adapted to this problem. Studies of the impact of numerical parameters (e.g., grid refinement and dissipation levels), and flow field parameters such as the height of the delta wing above the ground plane and the jet size on the solution, were performed. Results of these numerical studies indicate some challenges in the accurate resolution of complex three-dimensional free shear layers and jets. Nevertheless, flow features such as jet deformation and ground vortex formation observed in experimental flow visualizations are captured. Further, comparisons with experimental data confirm the ability to simulate the loss of wing-borne lift, commonly referred to “suckdown,” as the delta planform flies at slow speeds in close proximity to the ground. Detailed analysis of the numerical results has also given additional insight into the structure of the ground vortex and the mechanisms of lift loss.


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    Title :

    NUMERICAL STUDY OF A DELTA PLANFORM WITH MULTIPLE JETS IN GROUND EFFECT


    Additional title:

    Sae Technical Papers


    Contributors:
    Chawla, K. (author) / Rao, K. V. (author) / Van Dalsem, W. R. (author)

    Conference:

    Aerospace Technology Conference and Exposition ; 1989



    Publication date :

    1989-09-01




    Type of media :

    Conference paper


    Type of material :

    Print


    Language :

    English





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