Patent Number: 048225525
Section: claims

1. A method for passively scanning the gamma radiation emission count of nuclear fuel contained within a fuel rod to determine enrichment uniformity comprising the steps of: (a) advancing a fuel rod along a linear path of travel;  (b) repeatedly detecting the natural gamma radiation emission count of the advancing rod at each of a plurality of regularly spaced apart discrete segments along the length of the advancing rod; and  (c) summing the output of each of the detecting steps for each segment to obtain a total gamma radiation emission count for each segment.  (a) means for advancing a fuel rod along a linear path of travel;  (b) means positioned along the path of travel for repeatedly detecting the natural gamma radiation emission count at each of a plurality of regularly spaced apart discrete segments along the length of said fuel rod as said fuel rod advances along said linear path of travel; and  (c) means for summing the gamma radiation count for each segment to obtain a total gamma radiation emission count for each segment.  a feed table positioned adjacent said rod advancing means, with said feed table being adapted to a plurality of rods in a side-by-side arrangement;  means for individually transferring the rods from said feed table onto said rod advancing means.  an unloading table positioned adjacent said rod advancing means, with said detecting means being positioned between said feed table and said unloading table, and  means for individually transferring the rods from said rod advancing means onto said unloading table.  a plurality of detectors, with each of said detectors comprising  (a) a housing including a hole for admitting a nuclear fuel rod therethrough,  (b) means mounted in said housing for detecting gamma radiation of a predetermined energy level in a fuel rod extending through said hole,  means mounting said detectors in a linear side-by-side arrangement and with said holes being linearly aligned so as to permit a fuel rod to be advanced through the aligned hole, and  control means operatively connected to each of said detectors for recording the count of the detectors in shifted time intervals corresponding to the passage of a given segment of a fuel rod being continuously advanced through said holes of said detectors, and for adding the counts for each such segment of said fuel rod. 2. A method as claimed in claim 1 including the step of calculating from the total gamma radiation emission count for each segment the enrichment value for each segment and the average enrichment value for said fuel rod. 3. A method as claimed in claim 2 including the step of monitoring the average enrichment value of the fuel rod for deviations from a specified enrichment value, and/or for deviations in the enrichment values of adjacent segments of said fuel rod greater than a predetermined percentage. 4. An apparatus for passively scanning the gamma radiation emission count of nuclear fuel contained within a nuclear fuel rod to determine enrichment uniformity comprising: 5. The apparatus as claimed in claim 4 including calculating means for determining the enrichment value for each of said segments from the total count for each segment and the average enrichment value for said fuel rod. 6. The apparatus as set forth in claim 4 wherein said means for repeatedly detecting the gamma radiation emission count of the advancing fuel rod includes a plurality of linearly aligned detectors, with each of said detectors including means for detecting gamma radiation of a predetermined energy level. 7. The apparatus as set forth in claim 6 wherein each detector has a hole extending through said detector for receiving and encompassing the periphery of said fuel rod and including tubular sleeve segment means positioned within each detector hole for defining an annular window within each detector hole for collimating the gamma radiation from said fuel rod to each detector. 8. The apparatus as set forth in claim 6 including means enclosing said detectors for shielding said detectors from outside radiation sources. 9. The apparatus as defined in claim 4 further comprising 10. The apparatus as defined in claim 9 further comprising 11. An apparatus for passively scanning the gamma radiation emission count of nuclear fuel contained in a nuclear fuel rod to determine enrichment uniformity, and comprising 12. The apparatus as defined in claim 11 wherein said collimating means of each of said detectors comprises a pair of spaced apart sleeve segments positioned coaxially in the associated hole, and with said sleeve segments being composed of a material adapted to block the passage of gamma radiation, and with said sleeve segments being linearly spaced apart to define a narrow window for the passage of gamma radiation to said detecting means.