A new ROM for a CFD based flutter analysis at transonic and separated flow conditions is presented. It relies on a limited number of unsteady CFD computations forming the ROM data base, combined with an arbitrary number of Doublet Lattice computations. Thus compatibility with the standard DLM based linear flutter prediction process is conserved. The validation of this approach requires a common aeroelastic reference test case of adequate complexity. A brief review of available windtunnel data for both unsteady transonic aerodynamics and flutter outlines the shortcomings of these data, for example the lack of clear transonic dips at Mach numbers significantly below one, and of inverse shock motions. A new common test configuration with a t...
In this paper, a Transonic Doublet Lattice Method (TDLM) for calculating unsteady transonic pressure...
We present a digest of selected activities at DLR focusing on the application and validation of the ...
In order to investigate aeroelastic aspects of engine/airframe integration, a simulation chain is se...
For an accurate prediction of the steady and unsteady behaviour of an aircraft it is necessary to ta...
Aircraft manufacturers have to prove a flutter free design for all operational cases within the comp...
A new unsteady aerodynamic modeling methodology for calculating transonic flutter characteristics is...
Calculating the flutter boundary by solving the Reynolds averaged Navier Stokes (RANS) equations in ...
Transonic aeroelastic and aeroservoelastic (ASE) modeling presents a significant technical and compu...
The identification of computational and experimental reduced-order models (ROMs) for the analysis of...
Transonic aeroelastic analysis at the design level relies on linear panel methods, such as the Doubl...
A reduced-order model (ROM) is developed for aeroelastic analysis using the CFL3D version 6.0 comput...
Three different levels of unsteady CFD methods are used for transonic aeroelastic computations at DL...
In the present work,a Reduced Order Model (ROM) for aeroelastic analysis linearized around nonlinear...
The flutter behavior of a supercritical airfoil is investigated using a panel formulation, which sol...
Aerodynamic simulations were performed in order to compute the unsteady load response of the NLR 730...
In this paper, a Transonic Doublet Lattice Method (TDLM) for calculating unsteady transonic pressure...
We present a digest of selected activities at DLR focusing on the application and validation of the ...
In order to investigate aeroelastic aspects of engine/airframe integration, a simulation chain is se...
For an accurate prediction of the steady and unsteady behaviour of an aircraft it is necessary to ta...
Aircraft manufacturers have to prove a flutter free design for all operational cases within the comp...
A new unsteady aerodynamic modeling methodology for calculating transonic flutter characteristics is...
Calculating the flutter boundary by solving the Reynolds averaged Navier Stokes (RANS) equations in ...
Transonic aeroelastic and aeroservoelastic (ASE) modeling presents a significant technical and compu...
The identification of computational and experimental reduced-order models (ROMs) for the analysis of...
Transonic aeroelastic analysis at the design level relies on linear panel methods, such as the Doubl...
A reduced-order model (ROM) is developed for aeroelastic analysis using the CFL3D version 6.0 comput...
Three different levels of unsteady CFD methods are used for transonic aeroelastic computations at DL...
In the present work,a Reduced Order Model (ROM) for aeroelastic analysis linearized around nonlinear...
The flutter behavior of a supercritical airfoil is investigated using a panel formulation, which sol...
Aerodynamic simulations were performed in order to compute the unsteady load response of the NLR 730...
In this paper, a Transonic Doublet Lattice Method (TDLM) for calculating unsteady transonic pressure...
We present a digest of selected activities at DLR focusing on the application and validation of the ...
In order to investigate aeroelastic aspects of engine/airframe integration, a simulation chain is se...