Patent Number: 
Section: claims

1. A method of moving nuclear fuel with a graphical user interface, the method comprising:inputting at least one fuel attribute into the graphical user interface; andgraphically filtering, with the graphical user interface, graphical fuel bundles in a graphical loading map,the graphical fuel bundles representing fuel bundles in at least one fuel pool or reactor core, or fresh fuel bundles,the graphical user interface including one or more loading tools configured to graphically select, sort, remove, or move the graphical fuel bundles in the graphical loading map based on the at least one corresponding attribute of the fuel bundles represented by the graphical fuel bundles,the graphically filtering including graphically selecting, sorting, removing, or moving the graphical fuel bundles in the graphical loading map, with the loading tools, according to the input at least one fuel attribute and at least one corresponding attribute of the nuclear fuel bundles represented by the graphical fuel bundles. 2. The method of claim 1, wherein the graphical user interface further includes at least one fuel pool table and a reload table, and wherein the graphically filtering includes graphically selecting, sorting, removing, or moving, with the loading tools, the graphical fuel bundles within or among the graphical loading map, the at least one fuel pool table, and the reload table based on the input at least one fuel attribute and at least one corresponding attribute of the nuclear fuel bundles represented by the graphical fuel bundles. 3. The method of claim 2, further comprising:storing at least one fuel pool database, the fuel pool database including a fuel pool list of at least one of the fuel bundles residing in the fuel pool; andgraphically populating the at least one fuel pool table with a graphical representation of at least one of the fuel bundles on the fuel pool list. 4. The method of claim 2, wherein the graphical user interface further includes a fresh fuel table, and wherein the graphically filtering includes graphically selecting, sorting, removing, or moving, with the loading tools, the graphical fuel bundles within or among the loading map, the at least one fuel pool table, the reload table, and the fresh fuel table based on the input at least one fuel attribute and at least one corresponding attribute of the nuclear fuel bundles represented by the graphical fuel bundles. 5. The method of claim 4, further comprising:storing at least one fresh fuel database, the fresh fuel database including a fresh fuel list of at least one of the fresh fuel bundles; andgraphically populating the at least one fresh fuel table with a graphical representation of at least one of the fuel bundles on the fresh fuel list. 6. The method of claim 1, further comprising:analyzing the filtered graphical loading map by simulating reactor performance with the filtered graphical loading map. 7. The method of claim 1, wherein the at least one fuel attribute includes exposure, a previous cycle in which the fuel bundle was used, k infinity, bundle product line, initial uranium loading, initial gadolinium loading, number of axial zones, historical fuel cycle numbers previous to a most recent for which the fuel bundle was used, a corresponding reactor core in which the fuel bundle was resident for each of the historical fuel cycles, accumulated residence time, and a parameter reflecting usability of the fuel bundle for continued reactor operation. 8. A method of moving nuclear fuel from a fuel pool, the method comprising:inputting at least one fuel attribute into a graphical user interface, the graphical user interface including one or more loading tools configured to graphically select, sort, and move graphical fuel bundles in a graphical loading map based on the at least one corresponding attribute of fuel bundles in a fuel pool or fresh fuel bundle represented by the graphical fuel bundles; andgraphically selecting, sorting, and moving, with the one or more loading tools within the graphical user interface, graphical fuel bundles into a graphical loading map,the sorting, selecting, and moving based on the input at least one fuel attribute and at least one corresponding attribute of the nuclear fuel bundles represented by the graphical fuel bundles. 9. The method of claim 8, wherein the graphical user interface further includes at least one fuel pool table graphically representing bundles in a fuel pool and a reload table, and wherein the method further comprises:graphically selecting, sorting, and moving the graphical fuel bundles based on the at least one corresponding attribute of the nuclear fuel bundles represented by the graphical fuel bundles within or among the fuel pool table, the reload table, and the graphical loading map. 10. The method of claim 9, further comprising:storing at least one fuel pool database, the fuel pool database including a fuel pool list of at least one of the fuel bundles residing in the fuel pool; andgraphically populating the at least one fuel pool table with a graphical representation of at least one of the fuel bundles on the fuel pool list. 11. The method of claim 10, further comprising:storing at least one fresh fuel database, the fresh fuel database including a fresh fuel list of at least a portion of available fresh fuel bundles; andgraphically populating the at least one fresh fuel table with a graphical representation of at least one of the fresh fuel bundles on the fresh fuel list. 12. The method of claim 9, wherein the graphical user interface further includes a fresh fuel table, and wherein the graphically selecting, sorting, and moving the graphical fuel bundles is within or among the graphical loading map, the at least one fuel pool table, the reload table, and the fresh fuel table via the one or more loading tools. 13. The method of claim 8, further comprising:analyzing, after the graphically selecting, sorting, filtering, and moving, the graphical loading map by simulating reactor performance with the graphical loading map. 14. The method of claim 8, wherein the at least one fuel attribute includes at least one of exposure, a previous cycle in which the fuel bundle was used, k infinity, bundle product line, initial uranium loading, initial gadolinium loading, number of axial zones, historical fuel cycle numbers previous to a most recent for which the fuel bundle was used, a corresponding reactor core in which the fuel bundle was resident for each of the historical fuel cycles, accumulated residence time, and a parameter reflecting usability of the fuel bundle for continued reactor operation. 15. A non-transitory computer-readable medium storing code causing a processor connected to an output device to:receive user input of at least one fuel attribute in at least one input field;display, on the output device, a graphical loading map with graphical fuel bundles representing fuel bundles in at least one of a fuel pool and a reactor core or fresh fuel bundles;display, on the output device, at least one loading tool configured to graphically select, sort, remove, or move the graphical fuel bundles the graphical loading map based on the input at least one fuel attribute and at least one corresponding attribute of the fuel bundles represented by the graphical fuel bundles; andgraphically select, sort, remove, or move, on the output device, with the loading tool, the graphical fuel bundles in the graphical loading map according to the input at least one fuel attribute and at least one corresponding attribute of the nuclear fuel bundles represented by the graphical fuel bundles. 16. The computer-readable medium of claim 15, wherein the code further causes the processor to:display, on the output device, at least one fresh fuel table; anddisplay, on the output device, at least one fuel pool table, the at least one loading tool configured to graphically select, sort, remove, or move the graphical fuel bundles among or within the fresh fuel table, fuel pool table, and graphical loading map based on the input at least one fuel attribute and at least one corresponding attribute of the fuel bundles represented by the graphical fuel bundles. 17. The computer-readable medium of claim 15, wherein the at least one fuel attribute includes exposure, a previous cycle in which the fuel bundle was used, k infinity, bundle product line, initial uranium loading, initial gadolinium loading, number of axial zones, historical fuel cycle numbers previous to a most recent for which the fuel bundle was used, a corresponding reactor core in which the fuel bundle was resident for each of the historical fuel cycles, accumulated residence time, and a parameter reflecting usability of the fuel bundle for continued reactor operation.