Add to ORKGAfter summarizing the essential elements of a gun-sustained spheromak, the potential for a steady-state is explored by means of a comprehensive physics/engineering/costing model. A range of cost-optimized reactor design point is presented, and the sensitivity of cost to key physics, engineering, and operational variables is reported
The extensions of the physics and engineering guidelines for the ITER device needed for acceptable o...
The Institute for Energy Analysis with support from The Andrew W. Mellon Foundation has studied the ...
Three relatively simple mathematical models have been developed to estimate minimum reactor and radi...
For the spheromak to be attractive as a reactor concept it would be necessary to sustain the configu...
Preliminary design studies are carried out for a spheromak fusion reactor. Simplified circuit theory...
The spheromak is a magnetic confinement device with a more attractive fusion reactor potential than ...
The Sustained Spheromak Physics Experiment, SSPX, will study spheromak physics with particular atten...
The nuclear characteristics and fuel costs of a number of aqueous homogeneous reactors were estimate...
This is the final report on the LDRD SI-funded Sustained Spheromak Physics Project for the years FY1...
The US Stellarator Power Plant Study (SPPS) was carried out by a national reactor study group that a...
This report describes a system model for the mirror fusion-fission reactor. In this model we include...
Small Modular Reactors (SMRs) are compact nuclear power plants that offer various advantages for ene...
Small modular reactors (SMRs) offer simple, standardized, and safe modular designs for new nuc-lear ...
The U.S. fusion energy program is focused on research with the potential for studying plasmas at the...
The design and economics of the Aqueous Homogeneous Reactor as basically under development at the Oa...
The extensions of the physics and engineering guidelines for the ITER device needed for acceptable o...
The Institute for Energy Analysis with support from The Andrew W. Mellon Foundation has studied the ...
Three relatively simple mathematical models have been developed to estimate minimum reactor and radi...
For the spheromak to be attractive as a reactor concept it would be necessary to sustain the configu...
Preliminary design studies are carried out for a spheromak fusion reactor. Simplified circuit theory...
The spheromak is a magnetic confinement device with a more attractive fusion reactor potential than ...
The Sustained Spheromak Physics Experiment, SSPX, will study spheromak physics with particular atten...
The nuclear characteristics and fuel costs of a number of aqueous homogeneous reactors were estimate...
This is the final report on the LDRD SI-funded Sustained Spheromak Physics Project for the years FY1...
The US Stellarator Power Plant Study (SPPS) was carried out by a national reactor study group that a...
This report describes a system model for the mirror fusion-fission reactor. In this model we include...
Small Modular Reactors (SMRs) are compact nuclear power plants that offer various advantages for ene...
Small modular reactors (SMRs) offer simple, standardized, and safe modular designs for new nuc-lear ...
The U.S. fusion energy program is focused on research with the potential for studying plasmas at the...
The design and economics of the Aqueous Homogeneous Reactor as basically under development at the Oa...
The extensions of the physics and engineering guidelines for the ITER device needed for acceptable o...
The Institute for Energy Analysis with support from The Andrew W. Mellon Foundation has studied the ...
Three relatively simple mathematical models have been developed to estimate minimum reactor and radi...