abstract |
The present invention represents a reactor with a circuit for liquid fuel, which does not use the fuel cycle simultaneously with heat dissipation, unlike similar systems such as the fourth generation molten salt furnace. More cooling is achieved through separate cooling circuits when in close thermal contact with lines of liquid fuel. In this way, you can take full advantage of the liquid fuel while the cooling circuit is optimized at the same time. This makes the safety device much simpler. The reactor also has optimized neutron reductions that can inactivate long-lived fission products that require only short-lived toxic radioactive waste to be stored. In addition, using a neutron surplus, modern light-water reactors can deactivate long-lived toxic radioactive components from waste fuel or produce medical radioactive isotopes. |