The NASA Glenn Research Center at Lewis Field develops new technologies to increase the fuel efficiency of aircraft engines, improve the safety of engine operation, reduce emissions, and reduce engine noise. With the development of new designs for fans, compressors, and turbines to achieve these goals, the basic aeroelastic requirements are that there should be no flutter (self-excited vibrations) or high resonant blade stresses (due to forced response) in the operating regime. Therefore, an accurate prediction and analysis capability is required to verify the aeroelastic soundness of the designs. Such a three-dimensional viscous propulsion aeroelastic analysis capability has been developed at Glenn with support from the Advanced Subsonic T...
Aeroelastic problems in turbomachinery and propfans can be static or dynamic in nature. The analysis...
Due to higher aerodynamic blade loading, the investigation of aeroelastic phenomena such as flutter ...
Under this grant, Version 4 of the three-dimensional Navier-Stokes aeroelastic code (TURBO-AE) has b...
NASA s Advanced Subsonic Technology (AST) Program seeks to develop new technologies to increase the ...
NASA's Advanced Subsonic Technology (AST) program is developing new technologies to increase the fue...
The purpose of this report is to provide a description of the overall thrust, past relevant accompli...
The NASA Glenn Research Center has been developing aeroelastic analyses for turbomachines for use by...
An introduction is given to the research activity that is underway to enable the prediction of turbo...
This report reviews aeroelastic analyses for propulsion components (propfans, compressors and turbin...
The NASA Lewis aeroelastic research program is focused on unstalled and stalled flutter, forced resp...
Modern turbomachines are designed towards thinner, lighter and highly loaded blades. This gives rise...
This paper describes the development of an aeroelastic code (TURBO-AE) based on an Euler/Navier-Stok...
AlliedSignal Engines, in cooperation with NASA GRC (National Aeronautics and Space Administration Gl...
The LINFLUX-AE computer code predicts flutter and forced responses of blades and vanes in turbomachi...
The objective of this paper is to describe an accurate and efficient reduced order modeling method f...
Aeroelastic problems in turbomachinery and propfans can be static or dynamic in nature. The analysis...
Due to higher aerodynamic blade loading, the investigation of aeroelastic phenomena such as flutter ...
Under this grant, Version 4 of the three-dimensional Navier-Stokes aeroelastic code (TURBO-AE) has b...
NASA s Advanced Subsonic Technology (AST) Program seeks to develop new technologies to increase the ...
NASA's Advanced Subsonic Technology (AST) program is developing new technologies to increase the fue...
The purpose of this report is to provide a description of the overall thrust, past relevant accompli...
The NASA Glenn Research Center has been developing aeroelastic analyses for turbomachines for use by...
An introduction is given to the research activity that is underway to enable the prediction of turbo...
This report reviews aeroelastic analyses for propulsion components (propfans, compressors and turbin...
The NASA Lewis aeroelastic research program is focused on unstalled and stalled flutter, forced resp...
Modern turbomachines are designed towards thinner, lighter and highly loaded blades. This gives rise...
This paper describes the development of an aeroelastic code (TURBO-AE) based on an Euler/Navier-Stok...
AlliedSignal Engines, in cooperation with NASA GRC (National Aeronautics and Space Administration Gl...
The LINFLUX-AE computer code predicts flutter and forced responses of blades and vanes in turbomachi...
The objective of this paper is to describe an accurate and efficient reduced order modeling method f...
Aeroelastic problems in turbomachinery and propfans can be static or dynamic in nature. The analysis...
Due to higher aerodynamic blade loading, the investigation of aeroelastic phenomena such as flutter ...
Under this grant, Version 4 of the three-dimensional Navier-Stokes aeroelastic code (TURBO-AE) has b...