Litcius/Paper detail

Multidisciplinary analysis and design of strut-braced wing concept for medium range aircraft

Gérald Carrier, Guillaume Arnoult, Nicolò Fabbiane, Jean‐Sébastien Schotté, Christophe David, Sébastien Defoort, Emmanuel Bénard, Martin Delavenne

2022AIAA SCITECH 2022 Forum23 citationsDOIOpen Access PDF

Abstract

View Video Presentation: https://doi.org/10.2514/6.2022-0726.vid Increasing the wing aspect ratio appears as a straightforward way to improve aerodynamic performance of transport aircraft by reducing the lift-induced drag component. However, it comes at the price of a direct negative impact on the wing structural weight which is necessary to sustain aerodynamic loads in the case of a conventional cantilever wing. The strut-braced wing concept allows to reduce the flexural moment to be carried out by the inner-wing structure and therefore limits the weight penalty as aspect ratio is increased. A multidisciplinary evaluation of the potential benefits at aircraft level of High Aspect Ratio, Strut Braced Wing concept is presented. It relies on a multi-fidelity design approach in which an Overall Aircraft Conceptual Design framework is combined with high-fidelity aerodynamic and structural analyses to provide accurate physical information to the conceptual design process. This paper describes the tools, framework and approach used to combine OACD with high-fidelity CFD and CSM analyses and illustrates the first results of its application to design a HAR-SBW aircraft concept which are compared to a conventional tube-and-wing aircraft designed for the same mission.

Topics & Concepts

WingAerodynamicsConceptual designMultidisciplinary design optimizationLift-induced dragStructural engineeringAerospace engineeringAirfoilEngineeringWing configurationComputational fluid dynamicsWing loadingAerospaceLift-to-drag ratioSwept wingComputer scienceMultidisciplinary approachMechanical engineeringAngle of attackSociologySocial scienceAdvanced Aircraft Design and TechnologiesComputational Fluid Dynamics and AerodynamicsProbabilistic and Robust Engineering Design