Four lifting-line methods were compared with flight test data from a research Puma helicopter and the accuracy assessed over a wide range of flight speeds. Hybrid Computational Fluid Dynamics (CFD) methods were also examined for two high-speed conditions. A parallel analytical effort was performed with the lifting-line methods to assess the effects of modeling assumptions and this provided insight into the adequacy of these methods for load predictions
Data and analysis from an experimental program to measure vertical climb performance on an eight-foo...
A high-lift workshop was held in May of 1993 at NASA Langley Research Center. A major part of the wo...
In the present work, the aerodynamic performance of the full helicopter PSP in hover flight is inves...
A cooperative program was undertaken by research organizations in England, France, Australia and the...
A novel experimental and computational aerodynamic database for a complete helicopter has been gener...
The optimum design of the advancing helicopter rotor for high-speed forward flight always involves a...
A novel experimental and computational aerodynamic database for a complete helicopter has been gener...
Comparisons of many analysis codes have been made during the course of the UH-60 Airloads Workshops....
The design of the geometric shape of a helicopter fuselage poses a serious challenge for designers. ...
The paper presents CFD results for the wake of a helicopter flying a low altitude at different advan...
The present study is one of the first attempts to exploit the GOAHEAD data base to perform a code-to...
The presented research validates the capability of a loosely-coupled computational fluid dynamics (C...
Previous numerical work in CFD-CSD coupling has extensively been validated for the UH-60A rotor. The...
The AIAA High Lift Prediction Workshop is a joint effort between industry and academia researchers t...
This paper investigates whether the accuracy of the blade airload prediction by current comprehensiv...
Data and analysis from an experimental program to measure vertical climb performance on an eight-foo...
A high-lift workshop was held in May of 1993 at NASA Langley Research Center. A major part of the wo...
In the present work, the aerodynamic performance of the full helicopter PSP in hover flight is inves...
A cooperative program was undertaken by research organizations in England, France, Australia and the...
A novel experimental and computational aerodynamic database for a complete helicopter has been gener...
The optimum design of the advancing helicopter rotor for high-speed forward flight always involves a...
A novel experimental and computational aerodynamic database for a complete helicopter has been gener...
Comparisons of many analysis codes have been made during the course of the UH-60 Airloads Workshops....
The design of the geometric shape of a helicopter fuselage poses a serious challenge for designers. ...
The paper presents CFD results for the wake of a helicopter flying a low altitude at different advan...
The present study is one of the first attempts to exploit the GOAHEAD data base to perform a code-to...
The presented research validates the capability of a loosely-coupled computational fluid dynamics (C...
Previous numerical work in CFD-CSD coupling has extensively been validated for the UH-60A rotor. The...
The AIAA High Lift Prediction Workshop is a joint effort between industry and academia researchers t...
This paper investigates whether the accuracy of the blade airload prediction by current comprehensiv...
Data and analysis from an experimental program to measure vertical climb performance on an eight-foo...
A high-lift workshop was held in May of 1993 at NASA Langley Research Center. A major part of the wo...
In the present work, the aerodynamic performance of the full helicopter PSP in hover flight is inves...