This paper presents the computational aeroelastic results generated in support of the second Aeroelastic Prediction Workshop for the Benchmark Supercritical Wing (BSCW) configurations and compares them to the experimental data. The computational results are obtained using FUN3D, an unstructured grid Reynolds- Averaged Navier-Stokes solver developed at NASA Langley Research Center. The analysis results include aerodynamic coefficients and surface pressures obtained for steady-state, static aeroelastic equilibrium, and unsteady flow due to a pitching wing or flutter prediction. Frequency response functions of the pressure coefficients with respect to the angular displacement are computed and compared with the experimental data. The effects of...
Results presented at the Fifth Drag Prediction Workshop using CFL3D, FUN3D, and NSU3D are described....
This work presents the results of FUN3D and USM3D analyses that were performed for the 4th AIAA Prop...
Current industrial practice for the prediction and analysis of flutter relies heavily on linear meth...
This paper builds on the computational aeroelastic results published previously and generated in sup...
This paper summarizes the plans for the second AIAA Aeroelastic Prediction Workshop. The workshop is...
This paper summarizes data and findings from the first Aeroelastic Prediction Workshop (AePW) held i...
Contributions of the unstructured Reynolds-averaged Navier-Stokes code FUN3D to the 2nd AIAA CFD Hig...
The AIAA Aeroelastic Prediction Workshop (AePW) was held in April 2012, bringing together communitie...
An experimental effort was implemented in aeroelasticity called the Benchmark Models Program. The pr...
The Common Research Model wing-body configuration is investigated with the k-kL-MEAH2015 turbulence ...
The goal of the Benchmark Models Program is to provide data useful in the development and evaluation...
The virtual determination of static aeroelastic deformations of NASA’s Common Research Model at stea...
Results from the Sixth AIAA CFD Drag Prediction Workshop Common Research Model Cases 2 to 5 are pres...
Modifications to an existing three-dimensional, implicit, upwind Euler/Navier-Stokes code (CFL3D Ver...
The Common Research Model wing-body configuration is investigated with the k-kL-MEAH2015 turbulence ...
Results presented at the Fifth Drag Prediction Workshop using CFL3D, FUN3D, and NSU3D are described....
This work presents the results of FUN3D and USM3D analyses that were performed for the 4th AIAA Prop...
Current industrial practice for the prediction and analysis of flutter relies heavily on linear meth...
This paper builds on the computational aeroelastic results published previously and generated in sup...
This paper summarizes the plans for the second AIAA Aeroelastic Prediction Workshop. The workshop is...
This paper summarizes data and findings from the first Aeroelastic Prediction Workshop (AePW) held i...
Contributions of the unstructured Reynolds-averaged Navier-Stokes code FUN3D to the 2nd AIAA CFD Hig...
The AIAA Aeroelastic Prediction Workshop (AePW) was held in April 2012, bringing together communitie...
An experimental effort was implemented in aeroelasticity called the Benchmark Models Program. The pr...
The Common Research Model wing-body configuration is investigated with the k-kL-MEAH2015 turbulence ...
The goal of the Benchmark Models Program is to provide data useful in the development and evaluation...
The virtual determination of static aeroelastic deformations of NASA’s Common Research Model at stea...
Results from the Sixth AIAA CFD Drag Prediction Workshop Common Research Model Cases 2 to 5 are pres...
Modifications to an existing three-dimensional, implicit, upwind Euler/Navier-Stokes code (CFL3D Ver...
The Common Research Model wing-body configuration is investigated with the k-kL-MEAH2015 turbulence ...
Results presented at the Fifth Drag Prediction Workshop using CFL3D, FUN3D, and NSU3D are described....
This work presents the results of FUN3D and USM3D analyses that were performed for the 4th AIAA Prop...
Current industrial practice for the prediction and analysis of flutter relies heavily on linear meth...