Patent Number: 054147425
Section: claims

1. A leak-detection system for detecting a leaking container having a surface thereon and a material leaking therefrom, the material capable of adhering to the surface of the container as the material leaks from the container, comprising: (a) enclosure means surrounding the container for enclosing the container;  (b) detector means associated with said enclosure means for detecting the leaking material; and  (c) fluid injection means associated with said enclosure means for injecting a fluid into said enclosure means to remove the material adhering to the surface and to carry the material removed thereby to said detector means, so that said detector means detects the material leaking from the container.  (a) enclosure means surrounding the container for enclosing the container;  (b) detector means connected to said enclosure means for detecting the leaking material;  (c) fluid injection means connected to said enclosure means for injecting a fluid into said enclosure means to remove the material adhering to the exterior surface and to carry the material removed thereby to said detector means so that said detector means detects the material leaking from the container; and  (d) pressure relief means connected to the container for elevating the container for relieving the internal pressure in the container, so that the material is prevented from hiding-out in the container as the internal pressure is relieved.  (a) an enclosure defining a cavity therein surrounding the container for enclosing the container, the cavity containing a fluid medium covering the exterior surface and defining an external pressure acting against the exterior surface;  (b) a radiation detector in communication with the cavity defined by said enclosure for detecting the radioactive material leaking through the breach;  (c) a gas injector in communication with the cavity defined by said enclosure for injecting a gas into the cavity to remove the radioactive material adhering to the exterior surface and to carry the radioactive material removed thereby to said radiation detector, so that said radiation detector detects the radioactive material leaking from the container in order to detect the leaking container;  (d) an elevator connected to the container for elevating the container in the cavity, so that the external pressure acting against the exterior surface is reduced to relieve the internal pressure in the container and so that the radioactive material leaks through the breach as the internal pressure is relieved to prevent the radioactive material from hiding-out in the container.  (a) a suction pump in communication with the cavity defined by said enclosure for suctioning the radio-active material therefrom;  (b) a radiation-sensitive sensor in communication with the suction pump for sensing the radiation of the radioactive material suctioned by the suction pump, said sensor adapted to generate a sensor output signal in response to the radiation sensed thereby;  (c) an analyzer connected to said sensor for receiving the sensor output signal and for providing an analysis of the sensor output signal, said analyzer adapted to generate an analyzer output signal associated with the analysis provided thereby; and  (d) a controller connected to said analyzer for controlling said analyzer.  (a) a stationary enclosure defining a cavity surrounding the fuel rod for enclosing the fuel rod therein, the cavity containing a liquid medium covering the exterior surface of the fuel rod and defining a liquid-free volume in the cavity, the liquid medium defining a hydrostatic pressure acting against the exterior surface of the fuel rod;  (b) a radiation detector in communication with the liquid-free volume for detecting the radioactive fission product material leaking through the breach, said radiation detector including:  (d) a movable elevator connected to said fuel rod for elevating the fuel rod in the cavity defined by said enclosure, so that the hydrostatic pressure acting against the exterior surface of the fuel rod is reduced to relieve the internal pressure in the fuel rod and so that the radioactive fission product material expands and thereafter leaks through the breach as the internal pressure is relieved to prevent the radioactive fission product material from hiding-out in the fuel rod.  (a) enclosing the container by surrounding the container with an enclosure;  (b) detecting the material leaking from the container by operating a detector associated with the enclosure; and  (c) injecting a fluid into the enclosure for removing the material adhering to the exterior surface and for carrying the material to the detector, so that the detector detects the material leaking from the container.  (a) enclosing the fuel rod by surrounding the fuel rod with an enclosure defining a cavity in the enclosure, the cavity containing a liquid medium therein covering the exterior surface of the fuel rod and defining an external pressure acting against the exterior surface of the fuel rod, the cavity defining a liquid-free volume in the cavity;  (b) injecting a gas into the liquid medium by operating a gas injector in communication with the liquid medium so that a multiplicity of upwardly rising gas bubbles are generated in the liquid medium for removing the radioactive fission product material adhering to the exterior surface of the fuel rod and for carrying the radioactive fission product material removed thereby to the liquid-free volume;  (c) detecting the radioactive fission product material leaking through the breach by operating a radiation detector in communication with the liquid-free volume; and  (d) elevating the fuel rod in the cavity defined by the enclosure by operating an elevator connected to the fuel rod so that the external pressure acting against the exterior surface is reduced to relieve the internal pressure in the fuel rod and so that the radioactive fission product material expands and thereafter leaks through the breach as the internal pressure is relieved to prevent the radioactive fission product material from hiding-out in the fuel rod.  (a) suctioning the radioactive fission product material from the liquid-free volume by operating a suction pump in communication with the liquid-free volume;  (b) sensing the radiation of the radioactive fission product material suctioned by the suction pump by operating a radiation-sensitive sensor in communication with the suction pump, the sensor capable of generating a sensor output signal in response to the radiation sensed by the sensor;  (c) providing an analysis of the sensor output signal by operating an analyzer connected to the sensor, the analyzer capable of receiving the sensor output signal and thereafter capable of generating an analyzer output signal associated with the analysis provided by the analyzer; and  (d) controlling the analyzer by operating a controller connected to the analyzer.  (a) withdrawing the fission product material from the liquid-free volume defined by the cavity by operating a recirculating assembly in communication with the liquid-free volume; and  (b) returning the collected gas to the cavity by operating the recirculation assembly. 2. The leak-detection system of claim 1, further comprising recirculating means connected to said enclosure means and to said fluid injection means for recirculating the fluid through said enclosure means. 3. A leak-detection system for detecting a leaking container having an exterior surface thereon and a material leaking therefrom, the container having a predetermined internal pressure, the material capable of adhering to the exterior surface of the container as the material leaks from the container, comprising: 4. The leak-detection system of claim 3, further comprising recirculation means connected to said enclosure means and to said fluid injection means for recirculating the fluid through said enclosure means. 5. A leak-detection system for detecting a leaking container having a radioactive material leaking through a breach in an exterior surface of the container, the container having a predetermined internal pressure, the radioactive material capable of adhering to the exterior surface as the radioactive material leaks through the breach, comprising: 6. The leak-detection system of claim 5, wherein said radiation detector comprises: 7. The leak-detection system of claim 6, wherein said radiation detector further comprises a display connected to said analyzer for receiving the analyzer output signal and for displaying the analyzer output signal received thereby. 8. The leak-detection system of claim 5, further comprising a recirculation assembly in communication with the cavity defined by said enclosure and connected to said gas injector for recirculating the gas through said enclosure after being analyzed by said analyzer. 9. The leak-detection system of claim 5, further comprising a support frame connected to said elevator and to said enclosure for supporting said elevator and said enclosure. 10. A leak-detection system for detecting a leaking nuclear fuel rod having a radioactive fission product material leaking through a breach in an exterior surface of the fuel rod, the fuel rod having a predetermined internal pressure, the radioactive fission product material capable of adhering to the exterior surface of the fuel rod as the radioactive fission product material leaks through the breach, the leak-detection system comprising: 11. The leak-detection system of claim 10, further comprising a recirculation assembly in communication with the liquid-free volume defined by said enclosure and connected to said gas injection manifold for recirculating the fission product material through said enclosure. 12. The leak-detection system of claim 10, further comprising a support frame connected to said elevator and to said enclosure for supporting said elevator and said enclosure. 13. A leak-detection method for detecting a leaking container having a material leaking from an exterior surface thereof, the material capable of adhering to the exterior surface of the container, comprising the steps of: 14. The leak-detection method of claim 13, further comprising the step of recirculating the fluid through the enclosure. 15. A leak-detection method for detecting a leaking nuclear fuel rod having a radioactive fission product material leaking through a breach in an exterior surface of the fuel rod, the fuel rod having a predetermined internal pressure, the radioactive fission product material capable of adhering to the exterior surface as the radioactive fission product material leaks through the breach, the leak-detection method comprising the steps of: 16. The leak-detection method of claim 15, wherein said step of detecting the radioactive fission product material comprises the steps of: 17. The leak-detection method of claim 16, wherein said step of detecting the radioactive fission product material further comprises the step of displaying the analyzer output signal by operating display connected to the analyzer. 18. The leak-detection method of claim 15, further comprising the step of recirculating the gas through the enclosure. 19. The leak-detection method of claim 18, wherein said step of recirculating the gas through the enclosure comprises the steps of: 20. The leak-detection method of claim 15, further comprising the step of supporting the elevator and the enclosure by providing a support frame connected to the elevator and the enclosure.