Patent Number: 050248065
Section: claims

1. In a fuel assembly for a nuclear reactor including a plurality of nuclear fuel rods, at last one grid supporting said fuel rods in an organized array, and at least one guide thimble supporting said grid, a debris filter bottom nozzle spaced below said grid and said fuel rods, supporting said guide thimble and adapted to allow flow of liquid coolant into said fuel assembly, said debris filter bottom nozzle comprising: (a) an enclosure defining a chamber having opposite open ends for coolant flow therethrough in an axial direction from one of said ends to the other of said ends; and  (b) an array of elongated hollow tubes disposed across said chamber of said enclosure in a consolidated side-by-side relation to one another and in abutting contact with one another and rigidly interconnected to said enclosure and to one another to form a unitary structure, said hollow tubes extending substantially parallel to one another and axially in the direction of coolant flow through said chamber;  (c) said array of elongated hollow tubes including a first plurality of tubes of a substantially constant first diameter size and a second plurality of tubes of a substantially constant second diameter size which is smaller than the first diameter size of said first plurality of tubes, said first plurality of tubes being interspersed with said second plurality of tubes in an ordered pattern, said first and second pluralities of elongated hollow tubes being substantially arranged in interconnected structural units wherein each unit includes one tube of said second plurality of tubes in abutting contact with at lest three tubes of said first plurality of tubes, said at least three tubes of said first plurality of tubes being circumferentially arranged around said one tube of said second plurality of tubes and in abutting contact with one another, said first and second pluralities of hollow tubes having hollow tubular cross-sectional configurations defining passages for coolant flow through said chamber, said first diameter size tubes of said first plurality of tubes having passages being of a size smaller than a substantial amount of damage-inducing debris contained in the coolant flow which thereby prevents travel of such debris with the coolant flow through the passages.  (a) an enclosure defining a chamber having opposite open ends for coolant flow therethrough in an axial direction from one of said ends to the other said ends; and  (b) an upper transverse nozzle structure composed of an array of elongated hollow tubes disposed across said chamber of said enclosure in a consolidated side-by-side relation to one another and in abutting contact with one another and rigidly interconnected to said enclosure, said hollow tubes extending substantially parallel to one another and axially in the direction of coolant flow through said chamber, said hollow tubes being shorter in axial length than the height of said enclosure;  (c) said array of elongated hollow tubes including a first plurality of tubes, a second plurality of tubes and a third plurality of tubes, said first plurality of tubes having a substantially constant first diameter size and said second plurality of tubes having a substantially constant second diameter size which is smaller than the first diameter size of said first plurality of tubes, said first plurality of tubes being interspersed with said second plurality of tubes in an ordered pattern, said first and second pluralities of elongated hollow tubes being substantially arranged in interconnected structural units wherein each unit includes one tube of said second plurality of tubes in abutting contact with at least three tubes of said first plurality of tubes, said at least three tubes of said first plurality of tubes being circumferentially arranged around said one tube of said second plurality of tubes and in abutting contact with one another, said first and second pluralities of hollow tubes having hollow tubular cross-sectional configurations defining passages for coolant flow through said chamber, said first diameter size tubes of said first plurality of tubes having passages being of a size smaller than a substantial amount of damage-inducing debris contained in the coolant flow which thereby prevents travel of such debris with the coolant flow through the passages, said third plurality of hollow tubes having tubular cross-sectional configurations defining bores for receiving lower ends of said guide thimbles for attachment to said bottom nozzle. 2. The bottom nozzle as recited in claim 1, wherein at least one of said hollow tubes has a bore for receiving a lower end of said one guide thimble for attachment to said bottom nozzle. 3. The bottom nozzle as recited in claim 1, wherein said hollow tubes are shorter in axial length than the height of said enclosure. 4. The bottom nozzle as recited in claim 1, wherein said enclosure includes a plurality of interconnected upstanding side walls which define said coolant flow chamber therethrough. 5. The bottom nozzle as recited in claim 4, wherein said enclosure also includes a plurality of legs connected to said side walls for supporting said bottom nozzle in the reactor. 6. The bottom nozzle as recited in claim 5, wherein said interconnected side walls define a plurality of corners in said enclosure and each of said support legs is disposed at one of said corners of said enclosure. 7. In a liquid cooled nuclear reactor having a plurality of fuel assemblies, each fuel assembly including a plurality of nuclear fuel rods, a plurality of grids axially disposed along and supporting said fuel rods in an organized array, and a plurality of guide thimbles supporting said grid, a debris filter bottom nozzle spaced below a lowermost one of said girds and said fuel rods, supporting said guide thimbles and adapted to allow flow of liquid coolant into said fuel assembly, said debris filter bottom nozzle comprising: 8. The bottom nozzle as recited in claim 7, wherein said enclosure includes a plurality of interconnected upstanding side walls which define said coolant flow chamber therethrough. 9. The bottom nozzle as recited in claim 8, wherein said enclosure also includes a plurality of legs connected to said side walls for supporting said bottom nozzle in the reactor. 10. The bottom nozzle as recited in claim 9, wherein said interconnected side walls define a plurality of corners in said enclosure and each of said support legs is disposed at one of said corners of said enclosure.