Patent Number: 052326578
Section: claims

1. In a nuclear fuel storage body including a pool of fast neutron slowing fluid and a plurality of upright storage cans submerged in said fluid and disposed in a spaced side-by-side array, each storage can being composed of a plurality of side walls connected together to receive and store a nuclear fuel assembly, a plurality of flux trap neutron absorber arrangements disposed in said storage body between said storage cans, each of said flux trap neutron absorber arrangements comprising: (a) separate means extending vertically along and attached to the exterior of each of adjacent side walls of adjacent pairs of said spaced storage cans for forming respective pockets extending along said adjacent side walls and being spaced from one another, said pocket forming means being an outer elongated covering extending vertically along and attached along its periphery to each of said adjacent side walls;  (b) an elongated flat plate of a thermal neutron absorber material mounted in each of said pockets, said plates of thermal neutron absorber material being likewise spaced from one another and defining a fast neutron slow-down region therebetween;  (c) a slab of a metal hydride disposed in said fast neutron slow-down region between said plates of thermal neutron absorber material and said separate pocket forming means on said adjacent side walls; and  (d) a canister containing said slab of said metal hydride being disposed in said fast neutron slow-down region, said canister being connected to one of said adjacent side walls of said adjacent storage cans;  (e) said canister including a hollow metal container having a rectangular cross-section defined by a pair of spaced side walls and a pair of lateral end walls extending between and rigidly interconnecting said side walls, said canister being filled by said slab of metal hydride which is disposed in contact with said side and lateral end walls of said canister, said side walls of said canister being disposed in contact with said adjacent storage cans such that no gap and thereby no fast neutron flowing fluid is present between said canister and said adjacent storage cans,  (f) said canister further including a pair of lateral mounting flanges attached to and extending in opposite directions outwardly from opposite vertical edges of one of said side walls, said lateral mounting flanges being attached to opposite vertical edge portions of said respective covering. 2. The arrangement as recited in claim 1, wherein said outer covering is a plate of metal. 3. The arrangement as recited in claim 1, wherein each of said storage cans has four of said side walls, four of said canisters being respectively disposed adjacent said four side walls of said storage can, two of said four canisters being mounted by the two adjacent side walls of said four side walls of said storage can and the other two of said four canisters disposed in abutting contact with the two other adjacent side walls of said storage can. 4. The arrangement as recited in claim 1, wherein said thermal neutron absorber material of said plates is boron carbide. 5. The arrangement as recited in claim 1, wherein said metal hydride is titanium hydride.