Computational dynamics of a light airplane
Abstract
This paper presents work performed by the Institute of Aerospace Engineering at the Brno University of Technology. The main purpose of the project was to compare the results obtained from complex numerical simulation and analytical solutions of the aeroelastic response of an airplane. Numerical simulations provide a integrated description of the dynamic processes analyzed and monitoring of selected quantities in the time domain. This represents a tool for the visual qualification of the investigated process. Utilization of a simplified beam‐stick model represents an industrial standard in the field of computational aeroelasticity/flight mechanics. The need for complex aeroelastic simulations leads to a concept of an advanced aeroelastic model that integrates an advanced 3D dynamic part (model) with proven aerodynamic theory.
First Published Online: 14 Oct 2010
Keyword : computational aeroelasticity, computational flight mechanics, dynamic response estimation, finite element model, unsteady aerodynamics, advanced modeling techniques, flying qualities
This work is licensed under a Creative Commons Attribution 4.0 International License.