Add to ORKGInitial tandem mirror hybrid studies predict the ability to produce large amounts of fissile fuel (2 to 7 tons U233 per year from a 4000 MW plant) at a cost that adds less than 25% to the cost of power from a LWR
The fusion-fission hybrid (FFH) reactor has been recently revisited as a mid-term goal for energy pr...
Studies have been performed during the past year to determine the configuration of a tandem mirror F...
A fusion-fission hybrid could contribute to all components of nuclear power — fuel supply, electrici...
The reference mirror hybrid reactor design performed by LLL and General Atomic is summarized. The re...
The role of the fusion-fission hybrid reactor (FFHR) as a fissile fuel and/or power producer is disc...
The rationale for hybrid fusion-fission reactors is the production of fissile fuel for fission react...
Two scenarios are typically envisioned for thorium fuel cycles: 'open' cycles based on irradiation o...
A conceptual design study was made of a fusion-fission reactor for the purpose of producing fissile ...
Fuel design considerations for a conceptual design of a commercial mirror hybrid reactor, optimized ...
A parametric analysis and a preliminary conceptual design for a 1000 MWe Tandem Mirror Reactor (TMR)...
The straight field line mirror (SFLM) field with magnetic expanders beyond the confinement region is...
The straight field line mirror (SFLM) field with magnetic expanders beyond the confinement region is...
The straight field line mirror (SFLM) field with magnetic expanders beyond the confinement region is...
The straight field line mirror (SFLM) field with magnetic expanders beyond the confinement region is...
The fusion-fission hybrid (FFH) reactor has been recently revisited as a mid-term goal for energy pr...
The fusion-fission hybrid (FFH) reactor has been recently revisited as a mid-term goal for energy pr...
Studies have been performed during the past year to determine the configuration of a tandem mirror F...
A fusion-fission hybrid could contribute to all components of nuclear power — fuel supply, electrici...
The reference mirror hybrid reactor design performed by LLL and General Atomic is summarized. The re...
The role of the fusion-fission hybrid reactor (FFHR) as a fissile fuel and/or power producer is disc...
The rationale for hybrid fusion-fission reactors is the production of fissile fuel for fission react...
Two scenarios are typically envisioned for thorium fuel cycles: 'open' cycles based on irradiation o...
A conceptual design study was made of a fusion-fission reactor for the purpose of producing fissile ...
Fuel design considerations for a conceptual design of a commercial mirror hybrid reactor, optimized ...
A parametric analysis and a preliminary conceptual design for a 1000 MWe Tandem Mirror Reactor (TMR)...
The straight field line mirror (SFLM) field with magnetic expanders beyond the confinement region is...
The straight field line mirror (SFLM) field with magnetic expanders beyond the confinement region is...
The straight field line mirror (SFLM) field with magnetic expanders beyond the confinement region is...
The straight field line mirror (SFLM) field with magnetic expanders beyond the confinement region is...
The fusion-fission hybrid (FFH) reactor has been recently revisited as a mid-term goal for energy pr...
The fusion-fission hybrid (FFH) reactor has been recently revisited as a mid-term goal for energy pr...
Studies have been performed during the past year to determine the configuration of a tandem mirror F...
A fusion-fission hybrid could contribute to all components of nuclear power — fuel supply, electrici...