Add to ORKGThe aerodynamic design procedure for a new blade tip suitable for operation at transonic speeds is illustrated. For the first time, 3 dimensional numerical optimization was applied to rotor tip design, using the recent derivative of the ROT22 code, program R22OPT. Program R22OPT utilized an efficient quasi-Newton optimization algorithm. Multiple design objectives were specified. The delocalization of the shock wave was to be eliminated in forward flight for an advance ratio of 0.41 and a tip Mach number of 0.92 at psi = 90 deg. Simultaneously, it was sought to reduce torque requirements while maintaining effective restoring pitching moments. Only the outer 10 percent of the blade span was modified; the blade area was not to be reduced by mo...
This work presents a framework for the optimization of certain aspects of a British Experimental Rot...
Methods of improving helicopter performance and vibration level by proper shaping of helicopter blad...
A practical procedure for the optimum design of transonic wings is demonstrated. The procedure uses ...
The ability of the ROT22 code to predict accurately the transonic flow field in the crucial region a...
Described is a formal optimization procedure for helicopter rotor blade design which minimizes hover...
A study was conducted to identify the optimum blade tip planform for a model-scale active twist roto...
A review of helicopter rotor blade tip design technology has been carried out with a view to underta...
A review of helicopter rotor blade tip design technology has been carried out with a view to underta...
The optimum design of the advancing helicopter rotor for high-speed forward flight always involves a...
The design of new helicopter rotor blades is a challenging task. The individual blade sections under...
The design of a transonic-fan rotor is optimized using numerical computations of the full three-dime...
Aerodynamic performance aspects of rotor blade design are presented. Design considerations, aerodyna...
The research reported here was driven by a desire to obtain a prediction method for helicopter rotor...
The design of a model helicopter rotor blade incorporating a swept tip is described. The swept tip ...
Wind-tunnel tests of an aeroelastically designed helicopter rotor model were carried out to determin...
This work presents a framework for the optimization of certain aspects of a British Experimental Rot...
Methods of improving helicopter performance and vibration level by proper shaping of helicopter blad...
A practical procedure for the optimum design of transonic wings is demonstrated. The procedure uses ...
The ability of the ROT22 code to predict accurately the transonic flow field in the crucial region a...
Described is a formal optimization procedure for helicopter rotor blade design which minimizes hover...
A study was conducted to identify the optimum blade tip planform for a model-scale active twist roto...
A review of helicopter rotor blade tip design technology has been carried out with a view to underta...
A review of helicopter rotor blade tip design technology has been carried out with a view to underta...
The optimum design of the advancing helicopter rotor for high-speed forward flight always involves a...
The design of new helicopter rotor blades is a challenging task. The individual blade sections under...
The design of a transonic-fan rotor is optimized using numerical computations of the full three-dime...
Aerodynamic performance aspects of rotor blade design are presented. Design considerations, aerodyna...
The research reported here was driven by a desire to obtain a prediction method for helicopter rotor...
The design of a model helicopter rotor blade incorporating a swept tip is described. The swept tip ...
Wind-tunnel tests of an aeroelastically designed helicopter rotor model were carried out to determin...
This work presents a framework for the optimization of certain aspects of a British Experimental Rot...
Methods of improving helicopter performance and vibration level by proper shaping of helicopter blad...
A practical procedure for the optimum design of transonic wings is demonstrated. The procedure uses ...