Abstract CEASIOM is a multidisciplinary software environment for aircraft design that has been developed as part of the European Framework 6 SimSAC project. It closely integrates discipline-specific tools such as those used for CAD, grid generation, CFD, stability analysis and control system design. The environment allows the user to take an initial design from geometry definition and aerodynamics generation through to full six degrees of freedom simulation and analysis. Key capabilities include variable fidelity aerodynamics tools and aeroelasticity modules. The purpose of this paper is to demonstrate the potential of CEASIOM by presenting the results of a Design, Simulate and Evaluate (DSE) exercise applied to a novel, project specific, transonic cruiser configuration called the TCR. The baseline TCR configuration is first defined using conventional methods, which is then refined and improved within the CEASIOM software environment. A wind tunnel model of this final configuration was then constructed, tested and used to verify the results generated using CEASIOM.
Highlights ► CEASIOM software integrates CAD, grid generation, CFD and S&C for aircraft design. ► Key capabilities include auto grid generation variable-fidelity CFD and aeroelasticity. ► Flight dynamic analysis includes full six degrees of freedom simulation and analysis. ► Transonic cruiser configuration TCR is designed, simulated and evaluated. ► Stability augmentation system is developed for the TCR.
Design of a canard configured TransCruiser using CEASIOM
Progress in Aerospace Sciences ; 47 , 8 ; 695-705
2011-01-01
11 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Design of a canard configured TransCruiser using CEASIOM
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