Patent Number: 046630856
Section: claims

1. An apparatus for the decontamination of a metallic object contaminated by radiation, comprising: an electrolytic cell containing an electrolytic solution formed of an aqueous cerium nitrate solution containing trivalent cerium ions and tetravelent cerium ions,  an anode and a cathode immersed in said electrolytic solution in said electrolytic cell and connected to a direct current power source,  a feed pipe connected to a lateral side of said electrolytic cell and including a liquid pump,  a decontamination cell connected to said feed pipe through said liquid pump, said decontamination cell containing said radiation-contaminated metallic object, a drain line connected from a lower section of said decomtamination cell to said electrolytic cell, said drain line including a filter and a circulation pump,  a waste gas pipe connected to upper sections of said electrolytic cell and said decontamination cell to remove gases from said cells,  a condenser connected to said waste gas pipe to liquefy said gases removed from said cells,  a return pipe connected from said condenser to said electrolytic cell to return said liquefied gases to said electrolytic cells,  a gas outlet pipe for leading out waste gas emanating from said condenser, and  a demister and a waste gas blower connected to said gas outlet and adapted to recover water-nitric acid vapor and mist from said waste gas.  an electrolytic cell containing an electrolytic solution formed of an aqueous cerium nitrate solution formed of trivalent cerium ions and tetravalent cerium ions,  an anode and a cathode immersed in said electrolytic solution and connected to a direct current power source,  a drain tank connected to said electrolytic cell through an overflow pipe,  a first pipe connected through a valve to said drain tank,  a decontamination cell holding said radiation-contaminated metallic object,  a feed pipe connected to said decontamination cell through a liquid pipe and connected to said first pipe through a first pump,  a rinse water tank connected through a rinse water return pipe to a lower section of said decontamination cell, a second pump connected through a pump to a lower section of said rinse water tank and through a third pipe to said drain tank, said liquid pipe being connected through a feed pipe for electrolysis to said pump and to said electrolytic cell,  waste gas pipes connected one each to upper sections of said electrolytic cell, said decontamination cell, and said drain tank,  a waste gas duct for collectively leading out waste gas from said waste gas pipes,  a nitric acid vapor recovery device connected to said waste gas duct,  a receptacle connected to said nitric acid vapor recovery device,  a mist recovery device connected through a waste gas pipe to the empty space in an upper section of said receptacle,  a waste gas blower connected through a waste gas pipe to said mist recovery device, and  a recovery return pipe connected from the lower section of said receptacle to said drain tank.  an electrolytic solution cell holding an electrolytic solution formed of an aqueous cerium nitrite solution containing trivalent cerium ions and tetravalent cerium ions, said electrolytic solution cell including first and second cell sections;  an anode and a cathode immersed in said electrolytic solution and connected to a direct current power source, said anode and cathode being contained in said first electrolytic cell section;  a contaminated metallic object holder for holding a radiation-contaminated metallic object immersed in said electrolytic solution, said object holder being contained in said second electrolytic cell section;  a circulation pipe connected between said first cell section and said second cell section of said electrolytic solution cell for allowing said electrolytic solution in circulate; and  a filter and a circulation pump coupled to said circulation pipe to cause said electrolytic solution to circulate in said pipe. 2. An apparatus according to claim 1, wherein said electrolytic cell is provided with a heater for heating said electrolytic solution. 3. An apparatus according to claim 1, wherein a branched pipe is disposed on the downstream side of said feed pipe, wherein a leading end of said branched pipe and a leading end of said feed pipe are connected to annular pipes disposed inside said decontamination cell. 4. An apparatus according to claim 3, wherein said annular pipes are disposed stepwise within said decontamination cell and slanted nozzles are connected one each to said annular pipes. 5. An apparatus according to claim 1, wherein a performated plate containing a through hole at the center thereof is disposed, through a support valve, in the lower section of said decontamination cell. 6. An apparatus for the decontamination of a metallic object contaminated by radiation, comprising: 7. An apparatus according to claim 6, wherein a filter is disposed between said feed pipe for electrolysis and said liquid pipe and said filter is enclosed with a radiation shielding member. 8. An apparatus according to claim 6, wherein a filter is disposed between said feed pipe for decontamination and said liquid pipe and said filter is enclosed with a radiation shielding member. 9. An apparatus according to claim 6, wherein said electrolytic cell and said decontamination cell are each provided with a heater for heating said electrolytic solution. 10. An apparatus according to claim 6, wherein a feedback pipe for spraying is connected through a pipe to said mist recovery device and a spray nozzle is connected to said feedback pipe so as to effect spraying of a second filter within said recovery device. 11. An apparatus according to claim 7 or claim 9, wherein pressure gauges are incorporated one each in pipes on the upstream side and downstream side of said filter. 12. An apparatus for the decontamination of a metallic object contaminated by radiation, comprising: 13. An apparatus according to claim 12, wherein said first cell section and said second cell section each have a sealed empty space in the upper portion thereof connected to a condenser, a demister and a waste gas blower through a waste gas pipe means.