Add to ORKGThe overall and blade-element performance of a transonic compressor stage is presented over the stable operating range for speeds from 50 to 100 percent of design. The stage was designed for a pressure ratio of 2.05 at a flow of 20.2 kg/sec and a tip speed of 455 m/sec. At design speed the rotor and stage achieved peak efficiencies of 0.849 and 0.831, respectively, at the minimum flow condition. The stage stall point occurred at a flow higher than the design flow
A high-solidity low-aspect-ratio transonic rotor with an inlet hub-tip ratio of 0.52 was investigate...
The performance of the first stage of a transonic, multistage compressor was mapped over a range of ...
The overall and blade-element performances and the aerodynamic design parameters of a transonic roto...
The overall and blade-element performance of a transonic compressor stage is presented over the stab...
The overall and blade-element performances of a low-aspect-ratio transonic compressor stage are pres...
The overall and blade-element performance of a low-aspect-ratio transonic compressor stage is presen...
The overall and blade-element performance of a transonic compressor stage is presented over the stab...
A 50-cm-diam. axial-flow transonic compressor stage with multiple-circular-arc blades was designed a...
The design and experimental performance of a 50-centimeter-diameter, single stage, axial flow, trans...
A 50-centimeter-diameter axial-flow transonic compressor stage with multiple-circular-arc blades was...
For use in computing the detailed performance parameters of individual blade rows of a multistage co...
The overall and blade-element performance of a transonic compressor stage with a tip solidity of 1.5...
The overall and blade-element performances are presented over the stable flow operating range of the...
A complete stage of an axial-flow compressor was designed and built to investigate the possibility o...
A complete stage of an axial-flow compressor designed to produce a high pressure ratio was investiga...
A high-solidity low-aspect-ratio transonic rotor with an inlet hub-tip ratio of 0.52 was investigate...
The performance of the first stage of a transonic, multistage compressor was mapped over a range of ...
The overall and blade-element performances and the aerodynamic design parameters of a transonic roto...
The overall and blade-element performance of a transonic compressor stage is presented over the stab...
The overall and blade-element performances of a low-aspect-ratio transonic compressor stage are pres...
The overall and blade-element performance of a low-aspect-ratio transonic compressor stage is presen...
The overall and blade-element performance of a transonic compressor stage is presented over the stab...
A 50-cm-diam. axial-flow transonic compressor stage with multiple-circular-arc blades was designed a...
The design and experimental performance of a 50-centimeter-diameter, single stage, axial flow, trans...
A 50-centimeter-diameter axial-flow transonic compressor stage with multiple-circular-arc blades was...
For use in computing the detailed performance parameters of individual blade rows of a multistage co...
The overall and blade-element performance of a transonic compressor stage with a tip solidity of 1.5...
The overall and blade-element performances are presented over the stable flow operating range of the...
A complete stage of an axial-flow compressor was designed and built to investigate the possibility o...
A complete stage of an axial-flow compressor designed to produce a high pressure ratio was investiga...
A high-solidity low-aspect-ratio transonic rotor with an inlet hub-tip ratio of 0.52 was investigate...
The performance of the first stage of a transonic, multistage compressor was mapped over a range of ...
The overall and blade-element performances and the aerodynamic design parameters of a transonic roto...