Add to ORKGAt the design speed of a two-stage counterrotating compressor, an overall average pressure ratio of 4.3 was obtained at a specific weight flow of 27.2 pounds per second per square foot frontal area with an adiabatic efficiency of 0.75. Preliminary tests indicate that a weight-flow mismatching exists between the two rotors that causes the first rotor to operate at less than peak efficiency at design speed. At lower speeds, the first stage was forced to operate in the stalled region in single-stage tests. With the second rotor installed, no periodic rotating stall was observed, although random fluctations of similiar magnitude were noted
Tests were conducted on a 0.5 hub/tip ratio, single-stage fan-compressor designed to produce a press...
Stator setting angle optimization tests were conducted on a two-stage fan to improve efficiency at o...
The original design analysis and shop test data are presented for a three stage (poster) air compres...
At the design speed of a two-stage counterrotating compressor, an overall average pressure ratio of ...
For use in computing the detailed performance parameters of individual blade rows of a multistage co...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 1982.MI...
Modifying the original turbine by closing down the first-rotor throat area and shrouding the first a...
Windmilling tests on a two-stage transonic compressor with a design over-all pressure ratio of 1.85 ...
The rotating stall characteristics of a 0.72 hub-tip ratio, single-stage compressor were investigate...
An experimental investigation of a highly loaded two-stage turbine with a downstream stator revealed...
A two-stage fan with a first rotor tip speed of 1450 ft/sec (441.96 m/sec) and no inlet guide vanes ...
An experimental investigation was conducted with an 0.8 hub/tip ratio, single-stage, axial flow comp...
The purpose of this thesis was to design and evaluate a three stage counter-rotating compressor that...
An experimental investigation of the stage performance of the J71 three-stage turbine at design spee...
This article presents an experimental investigation into the effect of speed ratio and axial spacin...
Tests were conducted on a 0.5 hub/tip ratio, single-stage fan-compressor designed to produce a press...
Stator setting angle optimization tests were conducted on a two-stage fan to improve efficiency at o...
The original design analysis and shop test data are presented for a three stage (poster) air compres...
At the design speed of a two-stage counterrotating compressor, an overall average pressure ratio of ...
For use in computing the detailed performance parameters of individual blade rows of a multistage co...
Thesis (M.S.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 1982.MI...
Modifying the original turbine by closing down the first-rotor throat area and shrouding the first a...
Windmilling tests on a two-stage transonic compressor with a design over-all pressure ratio of 1.85 ...
The rotating stall characteristics of a 0.72 hub-tip ratio, single-stage compressor were investigate...
An experimental investigation of a highly loaded two-stage turbine with a downstream stator revealed...
A two-stage fan with a first rotor tip speed of 1450 ft/sec (441.96 m/sec) and no inlet guide vanes ...
An experimental investigation was conducted with an 0.8 hub/tip ratio, single-stage, axial flow comp...
The purpose of this thesis was to design and evaluate a three stage counter-rotating compressor that...
An experimental investigation of the stage performance of the J71 three-stage turbine at design spee...
This article presents an experimental investigation into the effect of speed ratio and axial spacin...
Tests were conducted on a 0.5 hub/tip ratio, single-stage fan-compressor designed to produce a press...
Stator setting angle optimization tests were conducted on a two-stage fan to improve efficiency at o...
The original design analysis and shop test data are presented for a three stage (poster) air compres...