Add to ORKGA thermionic system concept is described which incorporates a heat-pipe cooled fast spectrum reactor and six-cell thermionic converter modules located in the space radiator. Much of the technology being developed for the in-core thermionic reactor concept is directly applicable to this out-of-core concept, particularly the fuel and converter development activity. The major technology extension required is in the area of heat-pipes for cooling the reactor and carrying thermal energy from the reactor station to the converters. The performance characteristics of an out-of-core thermionic system at power levels between 40 and 70 kWe are summarized, the adaptation of in-core technology to the out-of-core concept is described and applicable heat-...
Using a point model of an in-core thermionic converter, alternative schemes for providing closed loo...
Developments towards space and terrestrial applications of thermionic energy conversion are presente...
Three output power coupling methods which can eliminate the high temperature insulator from the Nucl...
Design of the nuclear thermionic space power system, 40 50 70 Kw(e) power range, are given. The desi...
Basic guidelines are presented for a nuclear space power system which utilizes heat pipes to transpo...
A thermionic converter module simulating a configuration for an out-of-core thermionic nuclear react...
A prototypic heat pipe system for an out-of-core thermionic reactor was built and tested. The emitte...
Fabrication and evaluation of out-of-core thermionic converter heated and cooled by heat pipe
Nuclear reactor space power using out of pile thermionic diodes and heat pipes cooling with control ...
Current designs for out of core thermionic energy conversion (TEC) to power nuclear electric propuls...
The hardware selections available for fabrication of a nuclear electric propulsion stage for planeta...
Design optimization of out-of-core thermionic converter heated and cooled by heat pipe
The Idaho National Engineering Laboratory (INEL) is conducting intensive research in the design and ...
Technological processes in out-of-core thermionic energy conversion are described. The emphasis was ...
The Idaho National Engineering Laboratory (lNEL) is conducting intensive research in the design and ...
Using a point model of an in-core thermionic converter, alternative schemes for providing closed loo...
Developments towards space and terrestrial applications of thermionic energy conversion are presente...
Three output power coupling methods which can eliminate the high temperature insulator from the Nucl...
Design of the nuclear thermionic space power system, 40 50 70 Kw(e) power range, are given. The desi...
Basic guidelines are presented for a nuclear space power system which utilizes heat pipes to transpo...
A thermionic converter module simulating a configuration for an out-of-core thermionic nuclear react...
A prototypic heat pipe system for an out-of-core thermionic reactor was built and tested. The emitte...
Fabrication and evaluation of out-of-core thermionic converter heated and cooled by heat pipe
Nuclear reactor space power using out of pile thermionic diodes and heat pipes cooling with control ...
Current designs for out of core thermionic energy conversion (TEC) to power nuclear electric propuls...
The hardware selections available for fabrication of a nuclear electric propulsion stage for planeta...
Design optimization of out-of-core thermionic converter heated and cooled by heat pipe
The Idaho National Engineering Laboratory (INEL) is conducting intensive research in the design and ...
Technological processes in out-of-core thermionic energy conversion are described. The emphasis was ...
The Idaho National Engineering Laboratory (lNEL) is conducting intensive research in the design and ...
Using a point model of an in-core thermionic converter, alternative schemes for providing closed loo...
Developments towards space and terrestrial applications of thermionic energy conversion are presente...
Three output power coupling methods which can eliminate the high temperature insulator from the Nucl...