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Nonlinear Aeroelastic Analysis of High-Aspect-Ratio Wings with a Low-Order Propeller Model

Keisuke Otsuka, Alfonso del Carre, Rafael Palacios

2021Journal of Aircraft20 citationsDOI

Abstract

A nonlinear aeroelastic analysis framework for high-aspect-ratio wings that includes the aerodynamic effects of propellers is described. The high computational cost required for modeling aerodynamic interaction between the wing and propeller wake is reduced by taking advantage of the relatively slow dynamics of the wing. Consequently, the propeller wake is modeled as a straight vortex cylinder that does not require a computationally expensive wake updating process. By leveraging the smallness of the propeller, an averaged vortex cylinder method is proposed that calculates the induced velocities of the propeller vortex cylinder efficiently without suffering from a numerical singularity and loss of accuracy. The induced velocities are considered in the wing aerodynamic force calculation using an unsteady vortex lattice method. An efficient propeller cylinder coordinate generation method modeling the propeller-attached wing by absolute nodal coordinate formulation with a multibody dynamic theory is also proposed. The developed framework is validated by comparison with other formulations. A static aeroelastic analysis on a low-speed high-aspect-ratio wing demonstrates that the propeller-induced axial velocity causes the deflection change of 5.4%. A nonlinear dynamic result shows that the propeller decreases the vibration amplitude by 6.7% because the propeller-induced axial velocity enhances the aerodynamic damping.

Topics & Concepts

AeroelasticityPropellerWakeVortexAerodynamicsWingAdvance ratioAerodynamic forceMechanicsNonlinear systemCylinderStructural engineeringPhysicsEngineeringBlade pitchAerospace engineeringMechanical engineeringMarine engineeringTurbineQuantum mechanicsComputational Fluid Dynamics and AerodynamicsAeroelasticity and Vibration ControlVibration and Dynamic Analysis
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