Patent Number: 042343836
Section: claims

1. A nuclear reaction process which comprises establishing, in an inert, refractory reactor vessel, a critical fuel system made of at least a mass comprising at least one nitride of an actinide fuel metal in solid form and, in contact therewith, a solution of the actinide fuel metal in a molten tin solvent, said solid actinide nitride fuel being disposed at the bottom portion of the reactor vessel, maintaining the critical fuel system so that fission continuously occurs, dissolving the metal fission products in said tin solution at a concentration below a critical level, maintaining the fuel system under an atmosphere of nitrogen under conditions of nitrogen pressure ranging from about 0.02 to about 2 atmospheres and of temperatures ranging from about 300.degree. C. to 2000.degree. C. sufficient to precipitate from solution an amount of actinide fuel nitride substantially equal to the loss of actinide fuel metal nitride from fission occurrence. 2. The process of claim 1 wherein the fuel system is in graphite containment and wherein a portion of the molten tin solution so contained is withdrawn from the reactor vessel as the fission process continues, is freed of metal fission product contaminants present therein and is then returned to the reactor vessel. 3. The process of claim 2 wherein removal of the metal fission product impurities include the additional steps of separating said at least one actinide fuel nitride from the residual molten tin solution; further subjecting the latter solution to nitrification under conditions of temperature and nitrogen pressure to effect separation, in solid nitride form, of substantially all nitride-forming metal fission products present in the solution; removing said solid fission product nitrides from the solution; and returning the remaining treated molten tin solution and the separated actinide fuel nitrides as a mixture to the reactor vessel. 4. The process of claim 1 wherein the last-mentioned molten tin actinide fuel nitride mixture is maintained at temperatures ranging between about 1485.degree. C. and 2000.degree. C. and under a low nitrogen pressure to convert the mixture to a solution of actinide metal fuel in the molten tin before being returned to the reactor vessel. 5. The process of claim 1 wherein the actinide is uranium. 6. The process of claim 1 in which the weight ratio of tin solution to actinide nitride is at least three to one. 7. The process of claim 1 in which the dissolved actinide fuel metal is at a concentration no greater than 20% of the tin solution.