Patent Number: 
Section: claims

1. A detection apparatus that can determine whether spent nuclear fuel rods are missing or have been replaced with dummy spent nuclear fuel rods or have been replaced with fresh spent nuclear fuel rods, wherein the spent nuclear fuel rods are part of a spent nuclear fuel array located in a spent nuclear fuel storage pool, the spent nuclear fuel array having the spent nuclear fuel rods arranged in a quadrant symmetric pattern with guide tubes adjacent and between the spent nuclear fuel rods, comprising:a detection apparatus insertion fixture positioned in said spent nuclear fuel storage pool and adapted to contact the spent nuclear fuel array,said detection apparatus insertion fixture including a slider assembly with insertion tubes adapted to be inserted into the guide tubes in the spent nuclear fuel array,said insertion tubes moveable in the guide tubes of the spent nuclear fuel array by said slider assembly,a first detector and a second detector contained within the insertion tubes,wherein said first detector and said second detector are neutron detectors or gamma detectors and wherein said first detector and said second detector detect radiation responses,wherein the insertion tubes are between the spent nuclear fuel rods that are arranged in a quadrant symmetric pattern,wherein the insertion tubes containing said first detector and said second detector are inserted into the guide tubes adjacent the spent nuclear fuel rods and move through the guide tubes in the spent nuclear fuel array wherein said first detector and said second detector are in predetermined positions in the quadrant symmetric pattern;a measuring and analyzing device, said measuring and analyzing device connected to said first detector and said second detector wherein said first detector and said second detector are located in predetermined positions in the quadrant symmetric pattern for measuring said radiation responses of said first detector and said second detector at the predetermined positions in the quadrant symmetric pattern simultaneously at said predetermined positions in the quadrant symmetric pattern and processing said radiation responses and producing a signature; andwherein said measuring and analyzing device uses said signature for determining whether some spent nuclear fuel rods within the spent nuclear fuel array in the spent nuclear fuel storage pool are missing or have been replaced with dummy spent nuclear fuel rods or have been replaced with fresh spent nuclear fuel rods using said signature by determining whether said signature has been perturbed from the quadrant symmetric pattern. 2. The detection apparatus of claim 1 wherein said first detector and said second detector are neutron detectors. 3. The detection apparatus of claim 1 wherein said first detector and said second detector are gamma detectors. 4. The detection apparatus of claim 1 wherein said first detector is a neutron detector and said second detector is a gamma detector. 5. The detection apparatus of claim 1 wherein said measuring and analysis device includes a multi-channel analyzer and a computer. 6. The detection apparatus of claim 1 wherein the spent nuclear fuel array has alignment holes and wherein said detection apparatus insertion fixture includes guide pins adapted to engage the alignment holes in the spent nuclear fuel array. 7. The detection apparatus of claim 1 wherein the spent nuclear fuel array has alignment holes and wherein said detection apparatus insertion fixture includes guide pins adapted to engage the alignment holes in the spent nuclear fuel array and guide bushings for the insertion tubes, wherein the insertion tubes are adapted to move in said guide bushings. 8. A detection system that can determine whether spent nuclear fuel rods are missing or whether some spent nuclear fuel rods have been replaced with dummy spent nuclear fuel rods or fresh spent nuclear fuel rods, the detection system comprising:a spent nuclear fuel storage pool,a spent nuclear fuel array located in said spent nuclear fuel storage pool,said spent nuclear fuel array including the spent nuclear fuel rods arranged in a quadrant symmetric pattern and guide tubes adjacent and between the spent nuclear fuel rods,a detection apparatus insertion fixture adapted to be inserted into said spent nuclear fuel storage pool,said detection apparatus insertion fixture including a slider assembly with insertion tubes,said insertion tubes adapted to be moved in said guide tubes of said spent nuclear fuel array by said slider assembly in said spent nuclear fuel storage pool,wherein said insertion tubes contain a first detector and a second detector,wherein said first detector and said second detector are neutron detectors or gamma detectors and wherein said first detector and said second detector detect radiation responses,said insertion tubes are adapted to be inserted into said guide tubes adjacent the spent nuclear fuel rods in said spent nuclear fuel array through said guide tubes in said spent nuclear fuel array in predetermined positions in said quadrant symmetric pattern; anda measuring and analysis unit connected to said first detector and said second detector wherein said first detector and said second detector are located in predetermined positions in said quadrant symmetric pattern wherein radiation responses of said first detector and said second detector are simultaneously measured at a location or multiple locations within said guide tubes to produce a signature, anda processor for processing said radiation responses and said signature by determining whether said signature has been perturbed in said quadrant symmetric pattern and determining whether said spent nuclear fuel rods within said spent nuclear fuel array in said spent nuclear fuel storage pool are missing or have been replaced with dummy spent nuclear fuel rods or fresh spent nuclear fuel rods. 9. The detection apparatus of claim 8 wherein said first detector and said second detector are neutron detectors. 10. The detection apparatus of claim 8 wherein said first detector and said second detector are gamma detectors. 11. The detection apparatus of claim 8 wherein said first detector is a neutron detector and said second detector is a gamma detector. 12. The detection apparatus of claim 8 wherein said measuring and analysis unit includes a multi-channel analyzer and a computer. 13. A method of determining possible diversion of spent nuclear fuel rods located in a spent nuclear fuel storage pool in a spent nuclear fuel array in the spent nuclear fuel storage pool, wherein the spent nuclear fuel array includes spent nuclear fuel rods arranged in a fuel rods quadrant symmetric pattern and guide tubes adjacent and between the spent nuclear fuel rods, comprising the following steps:the step of providing a detector instrument insertion fixture having a slider assembly with insertion tubes arranged in a detector quadrant symmetric pattern corresponding to the fuel rods quadrant symmetric pattern, said insertion tubes containing a first detector and a second detector, wherein said first detector and said second detector are gamma ray detectors and wherein said first detector and said second detector are in predetermined positions in said detector quadrant symmetric pattern,the step of moving said detector instrument insertion fixture into the spent nuclear fuel storage pool adjacent the spent nuclear fuel array in the spent nuclear fuel storage pool,the step of moving said slider assembly with said insertion tubes into contact with the spent nuclear fuel array in the spent nuclear fuel storage pool,the step of inserting said insertion tubes containing said gamma ray detectors of said first detector and said second detector into said guide tubes in the spent nuclear fuel array using said detector instrument insertion fixture,the step of measuring gamma ray radiation responses of said gamma ray detectors in said guide tubes,the step of processing said gamma ray radiation responses in said guide tubes by normalizing them to the maximum value among them and producing a signature based on these normalized values, andthe step of producing an output that consists of said signature and determining whether said signature has been perturbed in said fuel rods quadrant symmetric pattern that can indicate possible diversion of said spent nuclear fuel rods from the spent nuclear fuel array in the spent nuclear fuel storage pool. 14. A method of determining possible diversion of spent nuclear fuel rods located in a spent nuclear fuel storage pool in a spent nuclear fuel array in the spent nuclear fuel storage pool, wherein the spent nuclear fuel array includes spent nuclear fuel rods arranged in a fuel rods quadrant symmetric pattern and guide tubes adjacent and between the spent nuclear fuel rods, comprising the following steps:the step of providing a detector instrument insertion fixture having a slider assembly with insertion tubes arranged in a detector quadrant symmetric pattern corresponding to said fuel rods quadrant symmetric pattern, said insertion tubes containing a first detector and a second detector, wherein said first detector and said second detector are neutron detectors,the step of moving said detector instrument insertion fixture into the spent nuclear fuel storage pool adjacent the spent nuclear fuel array in the spent nuclear fuel storage pool,the step of moving said slider assembly with insertion tubes into contact with the spent nuclear fuel array in the spent nuclear fuel storage pool,the step of inserting said insertion tubes containing said neutron detectors of said first detector and said second detector into the guide tubes in the spent nuclear fuel array using said detector instrument insertion fixture,the step of measuring neutron radiation responses of said neutron detectors in said guide tubes,the step of processing said neutron radiation responses in said guide tubes by normalizing them to the maximum value among them and producing a signature based on these normalized values, andthe step of producing an output that consists of said signature and determining whether said signature has been perturbed in said detector quadrant symmetric pattern that can indicate possible diversion of the spent nuclear fuel rods from the spent nuclear fuel array in the spent nuclear fuel storage pool. 15. A method of determining possible diversion of spent nuclear fuel rods located in a spent nuclear fuel storage pool in a spent nuclear fuel array in the spent nuclear fuel storage pool, wherein the spent nuclear fuel array includes spent nuclear fuel rods arranged in a fuel rods quadrant symmetric pattern and guide tubes adjacent and between the spent nuclear fuel rods, comprising the following steps:the step of providing a detector instrument insertion fixture having a slider assembly with insertion tubes arranged in a detector quadrant symmetric pattern corresponding to the fuel rods quadrant symmetric pattern, said insertion tubes containing a first detector and a second detector, wherein said first detector is a neutron detector and said second detector is a gamma detector,the step of moving said detector instrument insertion fixture into the spent nuclear fuel storage pool adjacent the spent nuclear fuel array in the spent nuclear fuel storage pool,the step of moving said slider assembly with said insertion tubes into contact with the spent nuclear fuel array in the spent nuclear fuel storage pool,the step of measuring radiation responses, both gammas and neutrons, of said first detector and said second detector simultaneously at a location or multiple locations within said detector quadrant symmetric pattern,the step of determining ratios of the total gamma flux and neutron flux obtained at each measurement,the step of normalizing said ratios to the maximum among them to obtain a unique profile signature, andthe step of determining wherein said unique profile signature has been perturbed in said detector quadrant symmetric pattern and determining whether spent nuclear fuel rods are missing or whether spent nuclear fuel rods have been replaced with dummy spent nuclear fuel rods using said unique profile signature in the spent nuclear fuel storage pool. 16. A method of determining possible diversion of spent nuclear fuel rods located in a spent nuclear fuel storage pool in a spent nuclear fuel array in the spent nuclear fuel storage pool, wherein the spent nuclear fuel array includes spent nuclear fuel rods arranged in a fuel rods quadrant symmetric pattern and guide tubes adjacent and between the spent nuclear fuel rods, comprising the following steps:the step of providing a detector instrument insertion fixture having a slider assembly with insertion tubes arranged in a detector quadrant symmetric pattern corresponding to the fuel rods quadrant symmetric pattern, said insertion tubes containing a first detector and a second detector, wherein said first detector is a gamma detector and said second detector is a neutron detector,the step of moving said detector instrument insertion fixture into the spent nuclear fuel storage pool adjacent the spent nuclear fuel array in the spent nuclear fuel storage pool,the step of moving said slider assembly with said insertion tubes into contact with the spent nuclear fuel array in the spent nuclear fuel storage pool,the step of inserting said insertion tubes into said guide tubes in the spent nuclear fuel array in the spent nuclear fuel storage pool using said detector instrument insertion fixture,the step of measuring radiation responses, both gammas and neutrons, of said first detector and said second detector simultaneously at a location or multiple locations within said detector quadrant symmetric pattern,the step of determining ratios of the total gamma flux and neutron flux are obtained at each measurement,the step of normalizing said ratios to the maximum among them to obtain a unique profile signature, andthe step of determining wherein said unique profile signature has been perturbed in said detector quadrant symmetric pattern and whether there are missing spent nuclear fuel rods or whether spent nuclear fuel rods have been replaced with dummy spent nuclear fuel rods in said spent nuclear fuel storage pool.