Add to ORKGTest results of an experimental investigation to measure Brayton engine performance while operating at the sink temperatures of a typical low earth orbit are presented. The results indicate that the radiator area was slightly oversized. The steady state and transient responses of the power system to the sink temperatures in orbit were measured. During the orbital operation, the engine did not reach the steady state operation of either sun or shade conditions. The alternator power variation during orbit was + or - 4 percent from its mean value of 9.3 kilowatts
Steady state characteristics of 1200 Hertz alternator and electrical controls operating in single sh...
An extensive study was conducted at the Lewis Research Center to evaluate an isotope Brayton electri...
Data from the first tests of the 2- to 15-kilowatt space power system in a vacuum chamber were compa...
A space-type laminar flow radiator was designed and integrated with a 2- to 15-kilowatt Brayton elec...
An analysis of the performance of a low-temperature Brayton space radiator is presented. The cylindr...
A solar dynamic (SD) space power system has been under test at the NASA Lewis Research Center since ...
A low-temperature radiator has been designed to reject 17.62 kW of thermal power from an isotope Bra...
Component and system performance tests of Brayton cycle power conversion system in 2 to 15 kW sub e ...
The electrical subsystem of the 2- to 15-kW Brayton power conversion system consists of the auxiliar...
The feasibility of using Brayton power systems for nuclear electric spacecraft was investigated. The...
Thermal performance analysis of solar Brayton heat receiver in transferring heat to working gas of B...
Electric tests on Brayton rotating unit alternator, voltage regulator, and speed contro
Performance of turbine-compressor-alternator Brayton cycle unit for space electric power generatio
The objectives of the NASA Brayton Space Power Program and the advantages of achieving an isotope Br...
Description and performance of electrical subsystem and components for Brayton power syste
Steady state characteristics of 1200 Hertz alternator and electrical controls operating in single sh...
An extensive study was conducted at the Lewis Research Center to evaluate an isotope Brayton electri...
Data from the first tests of the 2- to 15-kilowatt space power system in a vacuum chamber were compa...
A space-type laminar flow radiator was designed and integrated with a 2- to 15-kilowatt Brayton elec...
An analysis of the performance of a low-temperature Brayton space radiator is presented. The cylindr...
A solar dynamic (SD) space power system has been under test at the NASA Lewis Research Center since ...
A low-temperature radiator has been designed to reject 17.62 kW of thermal power from an isotope Bra...
Component and system performance tests of Brayton cycle power conversion system in 2 to 15 kW sub e ...
The electrical subsystem of the 2- to 15-kW Brayton power conversion system consists of the auxiliar...
The feasibility of using Brayton power systems for nuclear electric spacecraft was investigated. The...
Thermal performance analysis of solar Brayton heat receiver in transferring heat to working gas of B...
Electric tests on Brayton rotating unit alternator, voltage regulator, and speed contro
Performance of turbine-compressor-alternator Brayton cycle unit for space electric power generatio
The objectives of the NASA Brayton Space Power Program and the advantages of achieving an isotope Br...
Description and performance of electrical subsystem and components for Brayton power syste
Steady state characteristics of 1200 Hertz alternator and electrical controls operating in single sh...
An extensive study was conducted at the Lewis Research Center to evaluate an isotope Brayton electri...
Data from the first tests of the 2- to 15-kilowatt space power system in a vacuum chamber were compa...