Add to ORKGA low-temperature radiator has been designed to reject 17.62 kW of thermal power from an isotope Brayton power system. This power system has an electrical output of 7.1 kW. The total radiator consists of two radiators connected in series. Both radiators have a redundant coolant loop, shared fins, and are close to flight configuration. A silicone oil is used as the working fluid. Low flow rates and moderate pressure drop in the radiator required a small hydraulic diameter with large heat transfer area and large flow area. To obtain these characteristics and meet schedule limitations, an expanded tube configuration (with an approximately trapezoidal cross section) was selected. Because of the low flow rates and unconventional tube shape, smal...
One megawatt reactor design for Brayton cycle space power application - thermal analysis and core de...
Thermal performance analysis of solar Brayton heat receiver in transferring heat to working gas of B...
This paper describes potential heat rejection design concepts for Brayton power conversion systems. ...
A space-type laminar flow radiator was designed and integrated with a 2- to 15-kilowatt Brayton elec...
Test results of a low-temperature space radiator model are presented. Radiator performance is evalua...
Test results of an experimental investigation to measure Brayton engine performance while operating ...
The feasibility of using Brayton power systems for nuclear electric spacecraft was investigated. The...
Preliminary design for vapor and conduction fin radiators for Brayton cycle space powerplan
Evaluation of vapor chamber /heat pipe/ radiator for Brayton cycle space power syste
Radiator heat transfer and geometric characteristics of Brayton space power cycle using gas-solid su...
The objectives of the NASA Brayton Space Power Program and the advantages of achieving an isotope Br...
Design description and performance test results from identical Brayton heat exchange unit
An analytical study was conducted to investigate the potential performance characteristics of an iso...
An analysis of the performance of a low-temperature Brayton space radiator is presented. The cylindr...
A mini-Brayton power system in the power range of 500 to 2500 We utilizing the multihundred Watt iso...
One megawatt reactor design for Brayton cycle space power application - thermal analysis and core de...
Thermal performance analysis of solar Brayton heat receiver in transferring heat to working gas of B...
This paper describes potential heat rejection design concepts for Brayton power conversion systems. ...
A space-type laminar flow radiator was designed and integrated with a 2- to 15-kilowatt Brayton elec...
Test results of a low-temperature space radiator model are presented. Radiator performance is evalua...
Test results of an experimental investigation to measure Brayton engine performance while operating ...
The feasibility of using Brayton power systems for nuclear electric spacecraft was investigated. The...
Preliminary design for vapor and conduction fin radiators for Brayton cycle space powerplan
Evaluation of vapor chamber /heat pipe/ radiator for Brayton cycle space power syste
Radiator heat transfer and geometric characteristics of Brayton space power cycle using gas-solid su...
The objectives of the NASA Brayton Space Power Program and the advantages of achieving an isotope Br...
Design description and performance test results from identical Brayton heat exchange unit
An analytical study was conducted to investigate the potential performance characteristics of an iso...
An analysis of the performance of a low-temperature Brayton space radiator is presented. The cylindr...
A mini-Brayton power system in the power range of 500 to 2500 We utilizing the multihundred Watt iso...
One megawatt reactor design for Brayton cycle space power application - thermal analysis and core de...
Thermal performance analysis of solar Brayton heat receiver in transferring heat to working gas of B...
This paper describes potential heat rejection design concepts for Brayton power conversion systems. ...