Patent Number: 041773853
Section: claims

1. A nuclear fuel storage apparatus for use in a water filled pool comprising: an egg crate structure of thermal neutron absorbing material, having vertically extending rectangular openings, adjacent openings having a common wall therebetween extending through a height generally equal to or exceeding the active length of the fuel to be stored; a plurality of inserts of neutron absorbing material, each adapted to slidably fit within a respective opening, said inserts each having a first plate parallel to one side of the openings and a second plate parallel to an adjacent side of the opening, said plates adjacently connected and having a length generally equal to or greater than the active length of the fuel to be stored; means for holding said inserts within the openings, with the first and second plates spaced a predetermined distance from the parallel sides of the opening; and means for supporting fuel to be stored at locations bounded by said plates and to sides of the respective opening. 2. An apparatus as in claim 1 wherein the plates in adjacent openings are located in similar positions in each opening. 3. An apparatus as in claim 2 wherein said first and second plates form a unitary structure in the form of a single bent plate. 4. An apparatus as in claim 3 wherein said neutron absorbing material is stainless steel. 5. An apparatus as in claim 4 wherein said rectangular openings are square. 6. In a water pool fuel storage rack having a plurality of vertical rectangular openings with a common wall between the openings and immersed in water a method of managing fuel storage comprising: initially placing fuel assemblies in a checkerboard pattern until the capacity of the rack in the checkerboard mode is approached; subsequently inserting plates in the openings parallel to and spaced from two adjacent sides of selected openings, thereby forming a water gap therebetween and a flux trap fuel storage space between the plates and opposite sides of the openings, thereafter storing fuel in said flux trap storage spaces of an enrichment such that the total mass is subcritical when considering the common walls, the plates, and the water gap. 7. The method of claim 6 including also storing a fuel of greater enrichment by adding poison plates in a plurality of openings in at least two planes within each opening; and storing the fuel of greater enrichment in the openings to which the poison plates have been added. 8. The method of claim 7 including the further steps of: storing fuel of still greater enrichment by removing said plates of thermal neutron absorbing material and said poison plates from said openings; inserting rectangular boxes of poison material within said openings; and storing fuel within said boxes.