This study sought to compare four aircraft wing configurations at a conceptual level using a multi-disciplinary optimization (MDO) process. The MDO framework used was created by Georgia Institute of Technology and Virginia Polytechnic Institute and State University. They created a multi-disciplinary design and optimization environment that could capture the unique features of the truss-braced wing (TBW) configuration. The four wing configurations selected for the study were a low wing cantilever installation, a high wing cantilever, a strut-braced wing, and a single jury TBW. The mission that was used for this study was a 160 passenger transport aircraft with a design range of 2,875 nautical miles at the design payload, flown at a cruise Mach number of 0.78. This paper includes discussion and optimization results for multiple design objectives. Five design objectives were chosen to illustrate the impact of selected objective on the optimization result: minimum takeoff gross weight (TOGW), minimum operating empty weight, minimum block fuel weight, maximum start of cruise lift-to-drag ratio, and minimum start of cruise drag coefficient. The results show that the design objective selected will impact the characteristics of the optimized aircraft. Although minimum life cycle cost was not one of the objectives, TOGW is often used as a proxy for life cycle cost. The low wing cantilever had the lowest TOGW followed by the strut-braced wing.


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    Title :

    Wing Configuration Impact on Design Optimums for a Subsonic Passenger Transport


    Contributors:
    D. P. Wells (author)

    Publication date :

    2014


    Size :

    12 pages


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English





    Wing Configuration Impact on Design Optimums for a Subsonic Passenger Transport (AIAA 2014-0185)

    Wells, D.P. / American Institute of Aeronautics and Astronautics | British Library Conference Proceedings | 2014