Patent Number: 048308161
Section: claims

1. A getter trap to remove hydrogen and oxygen fro a liquid metal comprising: an elongated, closed housing having an inlet at one end thereof and an outlet at the other end;  a getter material randomly disposed within said housing, said getter material comprising a zirconium-containing substrate of hollow, tubular sections having a coating thereon of a gettering alloy of zirconium, vanadium and iron, wherein the substrate has a higher zirconium density than does the gettering alloy, whose composition, in weight percent, when plotted on a ternary diagram, lies within a triangle having as its corners the points defined by:  (a) 75 percent zirconium, 20 percent vanadium and 5 percent iron;  (b) 45 percent zirconium, 20 percent vanadium and 35 percent iron; and  (c) 45 percent zirconium, 50 percent vanadium and 5 percent iron;  a primary coolant loop including a primary liquid metal coolant, a liquid metal nuclear reactor and a first heat exchanger wherein said primary liquid metal coolant flows through said liquid metal nuclear reactor, said first heat exchanger, and back to said liquid metal nuclear reactor;  a secondary coolant loop including a secondary liquid metal coolant, said first heat exchanger and a second heat exchanger wherein heat from said primary liquid metal coolant of said primary coolant loop is transferred to said secondary liquid metal coolant through said first heat exchanger, and said secondary liquid metal coolant flows through said first heat exchanger, said second heat exchanger, and back to said first heat exchanger; and  a third coolant loop including a water coolant, said second heat exchanger and a steam driven device wherein heat from said secondary liquid metal coolant of said secondary liquid metal coolant loop is transferred to said water coolant through said second heat exchanger, and said water coolant flow through said second heat exchanger, said steam driven device and back to said second heat exchanger;  a getter trap, disposed in at least one of said primary and said secondary coolant loops, being capable of removing hydrogen and oxygen from said liquid metal flowing in said loops and comprising:  an elongated, closed housing having an inlet at one end thereof and an outlet at the other end;  a getter aterial randomly disposed within said housing, said getter material comprising a zirconium-containing substrate of hollow, tubular sections having a coating thereon of a gettering alloy of zirconium, vanadium and iron, wherein the substrate has a higher zirconium density than does the gettering alloy, whose composition, in weight percent, when plotted on a ternary diagram, lies within a triangle having as its corners the points defined by:  (a) 75 percent zirconium, 20 percent vanadium and 5 percent iron;  (b) 45 percent zirconium, 20 percent vanadium and 35 percent iron; and  (c) 45 percent zirconium, 50 percent vanadium and 5 percent iron;  said liquid metal coolant in said secondary coolant loop is liquid sodium;  said getter trap is in said second coolant loop, and said liquid sodium flows in said second coolant loop through said first heat exchanger, said second heat exchanger, said getter trap, and back to said first heat exchanger; and  said steam driven device of said third coolant loop is an electric generator. 2. The getter trap of claim 1 wherein said liquid metal is liquid sodium. 3. The getter trap of claim 1 wherein said getter trap includes a second getter material comprising pellets of said gettering alloy. 4. The getter trap of claim 3 wherein said second getter material is randomly disposed in said housing upstream of said getter material. 5. The getter trap of claim 3 wherein said getter trap includes a second housing upstream of said housing, said second getter material being randomly disposed in said second housing. 6. A liquid metal cooled nuclear reactor system comprising: 7. The liquid metal cooled nuclear reactor of claim 6 wherein said liquid metal coolant in said coolant loop, in which said getter trap is disposed, is liquid sodium. 8. The liquid metal cooled nuclear reactor of claim 6 wherein said getter trap is in said second coolant loop, and said secondary liquid metal coolant flows through said first heat exchanger, said second heat exchanger, said getter trap, and back to said first heat exchanger. 9. The liquid metal cooled nuclear reactor of claim 6 wherein said getter trap includes a second getter material comprising pellets of said gettering alloy. 10. The liquid metal cooled nuclear reactor of claim 9 wherein said second getter material is randomly disposed in said housing upstream of said getter material. 11. The liquid metal cooled nuclear reactor of claim 9 wherein said getter trap includes a second housing upstream of said housing, said second getter material being randomly disposed in said second housing. 12. The liquid metal cooled nuclear reactor of claim 6 wherein said steam driven device of said third coolant loop is an electric generator. 13. The liquid metal cooled nuclear reactor of claim 6 wherein: 14. The liquid metal cooled nuclear reactor of claim 13 wherein said getter trap includes a second getter material comprising pellets of said gettering alloy disposed upstream of said getter material. 15. The liquid metal cooled nuclear reactor of claim 6 wherein said getter trap is in said primary coolant loop.