Add to ORKGCompressor performance was mapped during the Brayton cycle power system testing. The range of testing included three shaft speeds: the design speed of 36,000 rpm, 10 percent overspeed (39,600 rpm), and 10 percent underspeed (32,400 rpm). A range of compressor inlet temperatures from 60 F to 120 F and discharge pressures from 20 to 45 psia were included. The effects of turbine inlet temperatures (from 1200 F to 1600 F) on the compressor were also studied. The data presented include plots of weight flow, compressor pressure ratio, efficiency, and temperature-rise ratio
Experimental evaluation of gas injection start of Brayton cycle turbocompressor operating on gas bea...
Cold performance characteristics of small radial inflow turbine designed for Brayton cycle power sys...
A comprehensive analysis and conceptual design study of the turboalternator-compressor components us...
The performance characteristics of the Brayton-rotating-unit's 4.97-inch radial turbine were investi...
Brayton cycle turbogenerator performance tests using helium xenon gas mixture including gas turbine ...
Efficiency estimates of turbine and compressor components of Brayton rotating unit during hot closed...
Experimental performance of 2-15 kilowatt Brayton power system using mixture of helium and xeno
Estimating microbial burden on capsule mechanical training model subsystem assemblie
Overall performance tests in argon of six inch radial bladed centrifugal compresso
Performance of single stage, axial flow turbine designed for Brayton cycle space power syste
The Brayton rotating unit (BRU), operating on a gas bearing system, has been designed, fabricated, a...
The methods which have been used by the NASA Lewis Research Center for predicting Brayton Cycle comp...
Advanced aerodynamic design and specifications of high efficiency Brayton cycle compressor for monat...
Gas turbine engine principles, performance improvements, and application to electric power generatio...
Brayton cycle power system gas loop operating with krypton over turbine inlet temperature of 1200 F ...
Experimental evaluation of gas injection start of Brayton cycle turbocompressor operating on gas bea...
Cold performance characteristics of small radial inflow turbine designed for Brayton cycle power sys...
A comprehensive analysis and conceptual design study of the turboalternator-compressor components us...
The performance characteristics of the Brayton-rotating-unit's 4.97-inch radial turbine were investi...
Brayton cycle turbogenerator performance tests using helium xenon gas mixture including gas turbine ...
Efficiency estimates of turbine and compressor components of Brayton rotating unit during hot closed...
Experimental performance of 2-15 kilowatt Brayton power system using mixture of helium and xeno
Estimating microbial burden on capsule mechanical training model subsystem assemblie
Overall performance tests in argon of six inch radial bladed centrifugal compresso
Performance of single stage, axial flow turbine designed for Brayton cycle space power syste
The Brayton rotating unit (BRU), operating on a gas bearing system, has been designed, fabricated, a...
The methods which have been used by the NASA Lewis Research Center for predicting Brayton Cycle comp...
Advanced aerodynamic design and specifications of high efficiency Brayton cycle compressor for monat...
Gas turbine engine principles, performance improvements, and application to electric power generatio...
Brayton cycle power system gas loop operating with krypton over turbine inlet temperature of 1200 F ...
Experimental evaluation of gas injection start of Brayton cycle turbocompressor operating on gas bea...
Cold performance characteristics of small radial inflow turbine designed for Brayton cycle power sys...
A comprehensive analysis and conceptual design study of the turboalternator-compressor components us...