Absolute Nodal Coordinate Formulation With Vector-Strain Transformation for High Aspect Ratio Wings

Abstract: High aspect ratio wings are potential candidates for use in atmospheric satellites and civil aircraft as they exhibit a low induced drag, which can reduce the fuel consumption. Owing to their slender and light weight configuration, such wings undergo highly flexible aeroelastic static and dynamic deformations that cannot be analyzed using conventional linear analysis methods. An aeroelastic analysis framework based on the absolute nodal coordinate formulation (ANCF) can be used to analyze the static and dynami… Show more

“…Moreover, Zhong et al [5] analyzed the effect of static deformation at high Reynolds number and aspect ratios on a whole aircraft model using experimental and numerical approaches. Additionally, several works have studied the dynamic response and stability of the associated structure under specific flow regimes for long aeroelastic wings [6][7][8].…”

Influence of passive deformation in the lift coefficient of a NACA0012 wing model

“…Moreover, Zhong et al [5] analyzed the effect of static deformation at high Reynolds number and aspect ratios on a whole aircraft model using experimental and numerical approaches. Additionally, several works have studied the dynamic response and stability of the associated structure under specific flow regimes for long aeroelastic wings [6][7][8].…”

Influence of passive deformation in the lift coefficient of a NACA0012 wing model

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