Patent Number: 040100685
Section: claims

1. A method for removing fission products from a coolant of a nuclear reactor system by use of a flow loop connected to said reactor system, said flow loop including a pair of vessels in series, each vessel having means for cooling reactor coolant flowing therethrough to form a cold trap, and means for reversing the direction of flow through said pair of vessels, said method comprising the steps of: diverting a portion of said coolant flowing through said reactor system,  adding reactant to said diverted coolant,  said reactant serving to enhance removal of fission products from said diverted coolant,  flowing said diverted coolant in one direction through said vessels in series, with the temperature of said diverted coolant being substantially maintained on flowing through the first of said vessels, and said diverted coolant being cooled on flowing through the second of said vessels to precipitate said fission products and excess reactant,  returning said diverted coolant to said reactor system,  then, when the supply of said reactant is substantially exhausted, flowing diverted coolant in an opposite direction through said vessels, substantially maintaining the temperature of said diverted coolant flowing through said second vessel to dissolve said precipitated fission products and excess reactant in said diverted coolant, and cooling said diverted coolant flowing through said first vessel to achieve further precipitation of fission products and optimal utilization of said reactant,  returning said diverted coolant to said reactor system.  said flow loop including means for adding reactant to said diverted coolant, said reactant serving to enhance removal of fission products from said diverted coolant,  at least two vessels in series in said flow loop, each vessel having means to cool said diverted coolant flowing therethrough, said cooling means being selectively operated to cool said diverted coolant flowing through one of said vessels for precipitating fission products and unused reactant within said vessel, while the other of said vessels is being operated to maintain said diverted coolant substantially at the temperature of the coolant flowing in said reactor system,  means connected to said flow loop for selectively reversing the direction of flow of said diverted coolant flowing through said vessels, said flow reversing means being activated simultaneously with the selective operation of said vessel cooling means to reverse the functions of said vessels thereby oscillating said precipitated fission products and unused reactant between said vessels to achieve further precipitation of fission products and optimal utilization of said reactant,  and means associated with said flow loop for removing said precipitated fission products from said flow loop. 2. The method of claim 1 including the additional step of removing said precipitated fission products from said vessels in series when all of said reactant is substantially used. 3. The method of claim 1, wherein said reactant comprises an isotopic diluent, and said precipitated fission product comprises a compound containing radioactive isotopes of said diluent. 4. The method of claim 1, wherein said reactant comprising a reacting chemical species, and said precipitated fission product comprises a compound of said reacting chemical species. 5. The method of claim 1, wherein said reactant comprises reacting chemical species and isotopic diluents, and said precipitated fission products comprise a compound containing radioactive isotopes of said isotopic diluent and a compound containing said reacting chemical species. 6. The method of claim 1, wherein said reactant comprises sodium hydride, sodium oxide, and sodium iodide and said precipitated fission products comprise tritium, barium-140, cesium-141, cesium-134, cesium-137, zirconium-95, iodine-125 and iodine-131, and said coolant comprises liquid sodium. 7. A system for removing fission products from a coolant of a nuclear reactor system comprising a flow loop connected to said reactor system, for diverting coolant from said reactor system and returning said diverted coolant to the reactor system, 8. The system of claim 7 wherein said means for adding reactant to said diverted coolant comprises one of said vessels. 9. The system of claim 7 including means connected to said flow loop for mixing said reactant with means for mixing the diverted coolant flowing therethrough to achieve maximum reaction between said diverted coolant and said reactant. 10. The system of claim 7 including means connected to said flow loop between said vessels in series, for monitoring the impurity level of said diverted coolant prior to entering the vessel being selectively used to precipitate said fission products. 11. The system of claim 7 including means connected to said flow loop at a location after said vessels in series, for monitoring the fission product contamination level of the diverted coolant prior to being returned to said reactor system. 12. The system of claim 7 including means connected to said flow loop for isolating said flow loop from said reactor system.