Add to ORKGA space-type laminar flow radiator was designed and integrated with a 2- to 15-kilowatt Brayton electrical power generating system. The design, fabrication, and testing of this radiator are presented. Test results include performance under steady state and transient conditions. Included in the transient results is performance in a simulated low earth orbit. Results show that the computer design is conservative. Orbital transients show that a further reduction in radiator area over that determined from steady state conditions is possible. Radiator efficiency was always greater than 83 percent
The preliminary design of a solar heat receiver for use as a heat source for an earth-orbiting 11-kW...
Requirements, design, and performance of control system from Brayton power syste
Electric tests on Brayton rotating unit alternator, voltage regulator, and speed contro
Test results of an experimental investigation to measure Brayton engine performance while operating ...
A low-temperature radiator has been designed to reject 17.62 kW of thermal power from an isotope Bra...
Test results of a low-temperature space radiator model are presented. Radiator performance is evalua...
The feasibility of using Brayton power systems for nuclear electric spacecraft was investigated. The...
Design description and performance test results from identical Brayton heat exchange unit
Component and system performance tests of Brayton cycle power conversion system in 2 to 15 kW sub e ...
A solar dynamic (SD) space power system has been under test at the NASA Lewis Research Center since ...
Description and performance of electrical subsystem and components for Brayton power syste
Thermal performance analysis of solar Brayton heat receiver in transferring heat to working gas of B...
Analysis of reactor heated Brayton cycle space power plants - Models of gas and liquid-metal reactor...
An analysis of the performance of a low-temperature Brayton space radiator is presented. The cylindr...
Steady state and transient operating characteristics of lithium cooled primary flow loop of nuclear ...
The preliminary design of a solar heat receiver for use as a heat source for an earth-orbiting 11-kW...
Requirements, design, and performance of control system from Brayton power syste
Electric tests on Brayton rotating unit alternator, voltage regulator, and speed contro
Test results of an experimental investigation to measure Brayton engine performance while operating ...
A low-temperature radiator has been designed to reject 17.62 kW of thermal power from an isotope Bra...
Test results of a low-temperature space radiator model are presented. Radiator performance is evalua...
The feasibility of using Brayton power systems for nuclear electric spacecraft was investigated. The...
Design description and performance test results from identical Brayton heat exchange unit
Component and system performance tests of Brayton cycle power conversion system in 2 to 15 kW sub e ...
A solar dynamic (SD) space power system has been under test at the NASA Lewis Research Center since ...
Description and performance of electrical subsystem and components for Brayton power syste
Thermal performance analysis of solar Brayton heat receiver in transferring heat to working gas of B...
Analysis of reactor heated Brayton cycle space power plants - Models of gas and liquid-metal reactor...
An analysis of the performance of a low-temperature Brayton space radiator is presented. The cylindr...
Steady state and transient operating characteristics of lithium cooled primary flow loop of nuclear ...
The preliminary design of a solar heat receiver for use as a heat source for an earth-orbiting 11-kW...
Requirements, design, and performance of control system from Brayton power syste
Electric tests on Brayton rotating unit alternator, voltage regulator, and speed contro