Patent Number: 
Section: claims

1. A fuel channel assembly for use in a pressurized fuel-channel-type nuclear reactor of the type adapted to be refueled on-line by the insertion and removal of fuel bundles into and from a plurality of fuel channel assemblies, each of said fuel channel assemblies comprising an elongated pressure tube and a plurality of fuel bundles longitudinally disposed in said pressure tube in end-to-end relation, each of said fuel bundles comprising a plurality of elongated fuel elements retained in parallel spaced relation uniformly about a longitudinal axis between transversely disposed end-plates, said end plates having apertures there through to permit coolant flow through said fuel channels in contact with said fuel elements, the fuel channel assembly further comprising at least one fuel bundle pair assembly, said fuel bundle pair assembly comprising a pair of fuel bundles in end-to-end relation and interconnecting means for interconnecting the adjacent facing end-plates of said pair of fuel bundles, said adjacent facing end-plates of said pair of fuel bundles being interconnected by said interconnecting means for maintaining said fuel elements in a predetermined position of relative rotational alignment about said longitudinal axis and preventing axial separation of said pair of fuel bundles in the pressure tube, the non-facing end-plates at opposite ends of said fuel bundle pair assembly permitting said fuel bundle pair assembly to be axially separable from adjacent bundles in the pressure tube to permit independent loading or unloading of said fuel bundle pair assembly. 2. The fuel channel assembly of  claim 1  wherein the means for interconnecting comprises at least one retaining member fixed to one of said facing end-plates and closely engaging the other of said end-plates. claim 1 3. The fuel channel assembly of  claim 2  wherein each end-plate comprises inner, intermediate and outer concentric ring web members, said inner and intermediate ring web members being interconnected by inner cross-webs and said intermediate and outer ring web members being interconnected by outer cross-webs, and comprising two hook members each connected to an outer cross-web of said one of said facing end-plates and extending longitudinally through an aperture and transversely behind the corresponding outer cross-web of the other of said facing end-plates. claim 2 4. The fuel channel assembly of  claim 2  wherein each end-plate comprises inner, intermediate and outer concentric ring web members, said inner and intermediate ring web members being interconnected by inner cross-webs and said intermediate and outer ring web members being interconnected by outer cross-webs, and comprising two hook members each connected to an inner cross-web of said one of said facing end-plates and extending longitudinally through an aperture and transversely behind the corresponding inner cross-web of the other of said facing end-plates. claim 2 5. The fuel channel assembly of  claim 1  wherein the predetermined position of relative rotational alignment is selected to produce minimum hydraulic resistance to coolant flow through said fuel bundle pair assembly. claim 1 6. The fuel channel assembly of  claim 1  wherein the predetermined position of relative rotational alignment is selected to longitudinally align the fuel elements of said pair of fuel bundles. claim 1