Add to ORKGAn introduction is given to the research activity that is underway to enable the prediction of turbomachinery aeroelastic forced response. An effort is being made to assemble a computer program (FREPS) which incorporates the aeroelastic structural models, unsteady aerodynamic models, and forcing function models. The structural and aerodynamic models are currently well developed. The forcing function models are at a primitive level. A significant activity has begun to identify the forcing functions due to stator-rotor aerodynamic interaction
Two highly efficient fully-coupled methods of predicting the resonant forced response of turbomachin...
The LINFLUX-AE computer code predicts flutter and forced responses of blades and vanes in turbomachi...
The NASA Glenn Research Center has been developing aeroelastic analyses for turbomachines for use by...
<p>One of the grand challenges faced by industry is the accurate prediction of unsteady aerodynamics...
The NASA Glenn Research Center at Lewis Field develops new technologies to increase the fuel efficie...
The purpose of this report is to provide a description of the overall thrust, past relevant accompli...
Due to higher aerodynamic blade loading, the investigation of aeroelastic phenomena such as flutter ...
Aeroelastic problems in turbomachinery and propfans can be static or dynamic in nature. The analysis...
Forced response, or resonant vibrations, in turbomachinery components can cause blades to crack or f...
Analytical and experimental research in the area of unsteady aerodynamics of turbomachinery has conv...
This research was directed at understanding two issues facing the turbomachine aeroelastician: (1) d...
The requirements placed on an unsteady aerodynamic theory intended for turbomachinery aeroelastic or...
The purpose of this master thesis is to provide a reliable methodology to predict the forced respons...
The purpose of this master thesis is to provide a reliable methodology to predict the forced respons...
An overview of the methods and concepts developed to enhance and predict structural dynamic characte...
Two highly efficient fully-coupled methods of predicting the resonant forced response of turbomachin...
The LINFLUX-AE computer code predicts flutter and forced responses of blades and vanes in turbomachi...
The NASA Glenn Research Center has been developing aeroelastic analyses for turbomachines for use by...
<p>One of the grand challenges faced by industry is the accurate prediction of unsteady aerodynamics...
The NASA Glenn Research Center at Lewis Field develops new technologies to increase the fuel efficie...
The purpose of this report is to provide a description of the overall thrust, past relevant accompli...
Due to higher aerodynamic blade loading, the investigation of aeroelastic phenomena such as flutter ...
Aeroelastic problems in turbomachinery and propfans can be static or dynamic in nature. The analysis...
Forced response, or resonant vibrations, in turbomachinery components can cause blades to crack or f...
Analytical and experimental research in the area of unsteady aerodynamics of turbomachinery has conv...
This research was directed at understanding two issues facing the turbomachine aeroelastician: (1) d...
The requirements placed on an unsteady aerodynamic theory intended for turbomachinery aeroelastic or...
The purpose of this master thesis is to provide a reliable methodology to predict the forced respons...
The purpose of this master thesis is to provide a reliable methodology to predict the forced respons...
An overview of the methods and concepts developed to enhance and predict structural dynamic characte...
Two highly efficient fully-coupled methods of predicting the resonant forced response of turbomachin...
The LINFLUX-AE computer code predicts flutter and forced responses of blades and vanes in turbomachi...
The NASA Glenn Research Center has been developing aeroelastic analyses for turbomachines for use by...