Patent Number: 049884760
Section: claims

1. A method of evaluating deformations of a channel box of a fuel assembly having been used for exposure in a nuclear reactor core having an array of fuel assemblies, comprising the steps of: finding initial deformations of said channel box which has been deformed during past exposure;  specifying a position in said array at which said channel box is adapted to be located;  calculating estimated deformations of said channel box during a next exposure cycle from data of core characteristics, data of shape and material properties of channel boxes, data of loading patterns, and said initial deformations; and  judging whether said calculated deformations are agreeable or not. 2. A method as set forth in claim 1, wherein said estimated deformations are calculated for every channel box in said nuclear reactor core. 3. A method as set forth in claim 2, wherein control rods are provided in said nuclear reactor core, each of said control rods being associated with channel boxes in one group unit, with said judging step determining whether or not any one of said channel boxes in one group unit interferes with the associated control rod due to said estimated deformations. 4. A method of evaluating deformations of channel boxes of fuel assemblies having been used for exposure in a nuclear reactor core, said fuel assemblies being divided in groups each having a predetermined number of said fuel assemblies and including a control rod, comprising the steps of: finding initial deformations of said channel boxes; reading data of core characteristics, data of material properties and shapes of said channel boxes, data of positions of said channel boxes and said control rods, data of loading patterns and said initial deformations; calculating estimated deformations of channel boxes in a next exposure cycle from said read data; judging whether or not said channel boxes interfere with said associated control rods in accordance with said estimated deformations; displaying results of the interference; resetting loading positions, loading directions and a loading pattern causing no interference, if interference is estimated to occur; and displaying said reset loading positions, directions and pattern. 5. A method as set forth in claim 4, further comprising the steps of maximizing a number of channel boxes which do not interfere with the associated control rods, wherein said maximizing step is carried out in such a way that said calculating step, said judging step and said resetting step are repeated in accordance with said reset loading pattern so as to maximize a number of channel boxes which do not interfere with said associated control rods. 6. A method as set forth in claim 5, wherein said calculating step, said judging step, said resetting step and said maximizing step are repeated so as to set a loading pattern of said channel boxes loaded in said reactor core, with which it is estimated that no interference occurs during said next exposure cycle. 7. A method as set forth in claim 4, wherein said initial deformations are obtained by measuring said channel boxes. 8. A method as set forth in claim 4, wherein said initial deformations of said channel boxes are calculated from said data of core characteristics, said data of material properties and shapes of said channel boxes, said data of loading patterns and data of past exposure applied to said channel boxes. 9. An apparatus for evaluating deformation of channel boxes of fuel assemblies having been used for exposure in a nuclear reactor core; comprising memory means for storing therein data of core characteristics, data of material properties and shapes of said channel boxes, data of initial deformations of said channel boxes, and data of loading patterns; a computing and processing means for calculating estimated deformations of said channel boxes during a next exposure cycle in accordance with said data delivered from said memory means with the use of arithmetic expressions; and a display means for displaying a result of calculation made by said computing and processing means. 10. An apparatus as set forth in claim 9, wherein said nuclear reactor core includes control rods each associated with one unit group of said fuel assemblies having a predetermined number, and said computing and processing means is adapted to judge whether said channel boxes interfere with said associated control rods.