Add to ORKGExperimental data from 10 transonic fan rotors were used to correlate losses created by part-span dampers located near the midchord position on the rotor blades. The design tip speed of these rotors varied from 419 to 425 m/sec, and the design pressure ratio varied from 1.6 to 2.0. Additional loss caused by the dampers for operating conditions between 50 and 100 percent of design speed were correlated with relevant aerodynamic and geometric parameters. The resulting correlation predicts the variation of total-pressure-loss coefficient in the damper region to a good approximation
Trailing edge loss is one of the main sources of loss for transonic turbine blades, contributing typ...
The present paper reports an investigation of unsteady loss generation in the stator due to the inco...
A single rotating blade row was tested with two magnitudes of tip radial distortion and two magnitud...
The design-point losses caused by part-span dampers (PSD) were correlated for 21 transonic axial flo...
Detailed measured radial distributions of flow parameters for eight rotors with part-span dampers ar...
The experimental performance of a 20-inch-diameter axial-flow transonic compressor rotor with small ...
The overall and blade-element performance of two configurations of a moderately high aspect ratio tr...
The off-design performance and a breakdown of the losses of a transonic turbine were determined by a...
A simulated transonic rotor channel model was examined experimentally to verify the flow physics of ...
The rather extensive study of the shock losses in transonic compressors can he summarized by the fol...
The performance of compressors and the sophistication of analysis tools have reached a level such th...
A transonic compressor stage designed for a reduced loading in the tip region of the rotor blades wa...
Issued June 1977.Includes bibliographical references (p. 11-12).Mode of access: Internet
The effects of tip clearance on the overall and blade-element performance of an axial-flow transonic...
The performance of a two stage, high pressure-ratio fan, having large, part-span vibration dampers o...
Trailing edge loss is one of the main sources of loss for transonic turbine blades, contributing typ...
The present paper reports an investigation of unsteady loss generation in the stator due to the inco...
A single rotating blade row was tested with two magnitudes of tip radial distortion and two magnitud...
The design-point losses caused by part-span dampers (PSD) were correlated for 21 transonic axial flo...
Detailed measured radial distributions of flow parameters for eight rotors with part-span dampers ar...
The experimental performance of a 20-inch-diameter axial-flow transonic compressor rotor with small ...
The overall and blade-element performance of two configurations of a moderately high aspect ratio tr...
The off-design performance and a breakdown of the losses of a transonic turbine were determined by a...
A simulated transonic rotor channel model was examined experimentally to verify the flow physics of ...
The rather extensive study of the shock losses in transonic compressors can he summarized by the fol...
The performance of compressors and the sophistication of analysis tools have reached a level such th...
A transonic compressor stage designed for a reduced loading in the tip region of the rotor blades wa...
Issued June 1977.Includes bibliographical references (p. 11-12).Mode of access: Internet
The effects of tip clearance on the overall and blade-element performance of an axial-flow transonic...
The performance of a two stage, high pressure-ratio fan, having large, part-span vibration dampers o...
Trailing edge loss is one of the main sources of loss for transonic turbine blades, contributing typ...
The present paper reports an investigation of unsteady loss generation in the stator due to the inco...
A single rotating blade row was tested with two magnitudes of tip radial distortion and two magnitud...