15th Dynamics Specialists Conference 2016
DOI: 10.2514/6.2016-1320
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Towards an Aero-Propulso-Servo-Elasticity Analysis of a Commercial Supersonic Transport

Abstract: This paper covers the development of an aero-propulso-servo-elastic (APSE) model using computational fluid dynamics (CFD) and linear structural deformations. The APSE model provides the integration of the following two previously developed nonlinear dynamic simulations: a variable cycle turbofan engine and an elastic supersonic commercial transport vehicle. The primary focus of this study is to provide a means to include relevant dynamics of a turbomachinery propulsion system into the aeroelastic studies condu… Show more

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Cited by 8 publications
(6 citation statements)
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References 29 publications
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“…This work compared the installed performance and sonic boom for two discrete inlet designs, and the limited number of configurations made manual coupling a reasonable approach. Connolly et al [27] developed a transient coupled model using an Euler aerodynamic model with 1D gas-dynamics propulsion model for aero-propulso-servo-elasticity applications. They iterate by passing boundary condition values at the interfaces between the two models at every time step to compute state derivatives for the time integration.…”
Section: Fully Coupled Modelmentioning
confidence: 99%
“…This work compared the installed performance and sonic boom for two discrete inlet designs, and the limited number of configurations made manual coupling a reasonable approach. Connolly et al [27] developed a transient coupled model using an Euler aerodynamic model with 1D gas-dynamics propulsion model for aero-propulso-servo-elasticity applications. They iterate by passing boundary condition values at the interfaces between the two models at every time step to compute state derivatives for the time integration.…”
Section: Fully Coupled Modelmentioning
confidence: 99%
“…The deformation of the volume mesh and change in aerodynamic loading is then iterated in a time marching scheme. A description of the solution process is presented in the following subsections for the fluidpropulsion-structural coupling: first by giving an overview of the CFD flow solver, second by describing the propulsion system model integration, third by describing AE methodology in FUN3D, and finally specific modifications to the AE model to enable APE analysis [28].…”
Section: Aero-propulso-elastic Modelmentioning
confidence: 99%
“…They compared the installed performance and sonic boom for two discrete inlet designs, and the limited number of configurations made manual coupling a reasonable approach. Connolly et al [20] developed a transient coupled model using an Euler aerodynamic model and 1-D gas-dynamics propulsion model for aeropropulsoservoelasticity applications. They iterated by passing boundary condition values at the interfaces between the two models at every time step to compute state derivatives for the time integration.…”
Section: Fully Coupled Modelmentioning
confidence: 99%
“…The first task toward developing a coupled analysis is to select the propulsion and aerodynamic models that capture the relevant physics. The propulsion system performance can be modeled adequately using an inexpensive 1-D thermodynamic model that represents bulk fluid properties with scalar values [18][19][20]. There are two main approaches to modeling viscous aerodynamics over three-dimensional (3-D) geometries.…”
mentioning
confidence: 99%