A storage rack in which a plurality of tubular shrouds are assembled together in a checkerboard arrangement, each shroud having side walls arranged to absorb subatomic particles such as neutrons. With this arrangement, spent atomic fuel rods may be assembled in the shrouds and also in the spaces which are surrounded by shrouds, so that each adjacent grouping of fuel rods has interposed therebetween an emission absorbing wall.

Patent
   RE31661
Priority
Oct 31 1980
Filed
Oct 31 1980
Issued
Sep 04 1984
Expiry
Sep 04 2001
Assg.orig
Entity
unknown
11
3
EXPIRED
1. A storage rack for receiving spent nuclear fuel cells comprising
an egg crate grid formed of a multiplicity of elongated flat strips rigidly interconnected with their long dimensions horizontal and their width dimension vertical, said strips being at right angles to each other defining a multiplicity of square openings spaced apart by the thickness of said strips and forming a checker board pattern consisting of a first parallel series of openings and a second parallel series of openings perpendicular to said first series,
a multiplicity of vertical tubular open-ended modules each of which comprises inner and outer aluminum metal tubes and panels containing neutron absorbing material fitted between said inner and outer tubes, said modules having flat side walls and dimensioned to fit tightly into openings in said grid,
said modules being provided only in alternate openings in each row of grid openings with the modules in one row staggered with respect to the modules in the adjacent rows so that the modules leave open spaces in said grid between modules at opposite sides thereof,
and splines rigidly interconnecting diagonally adjacent modules, said splines having oppositely extending flat offset arms engaging the oppositely facing flat sides of diagonally adjacent modules while providing for lateral spacing between adjacent rows of modules as determined by the thickness of the strips of said egg crate grid, of less than the thickness of said spline arms, said spline arms being metallurgically bonded to the outer walls of said modules.
2. A rack as defined in claim 1, in which a plurality of egg crate grids are provided in vertically spaced relation, and said splines are provided both above and below an intermediate grid.
3. A rack as defined in claim 2, in which one grid is provided adjacent the top of said rack, a second grid is provided substantially intermediate the ends of the rack, and a horizontal flat support plate to which the lower ends of said modules are secured to provide a rigid assembly.

With the growth of nuclear power reactors the disposal of spent fuel rods presents a serious problem. While these fuel rods are referred to as spent, they nevertheless are radioactive and care must be taken to prevent harmful escape of radiation. Also, it is essential that in storing a multiplicity of elongated spent nuclear fuel rods, that the rods be protected against cross radiation.

In general, storage of spent fuel rods is provided in so-called pools of water which may or may not include neutron absorbing agents such, for example, as boron compounds. It has been proposed in the past to assemble together a multiplicity of shrouds which extend vertically in the pool and are substantially completely surrounded by water. Shrouds suitable for this purpose are disclosed in prior U.S. Pat. No. 4,006,362, material panel 46 which may, for example, be contain boron carbide between aluminum sheets as described in prior U.S. Pat. No. 4,006,362.

The means for assembling a multiplicity of shroud tubes together in the checkerboard formation with the requisite strength and rigidity comprises a multiplicity of splines or brackets 50 together with an egg crate structure indicated generally at 52. Splines 50, as best illustrated in FIG. 5, comprise a multiplicity of arms 50a, 50b, 50c and 50d, where the adjacent corners of diagonally adjacent shroud tubes 16 are assembled together. It will be observed that arms 50a and 50d of the spline 50 are welded as indicated at 53 to the outer tube 42 of one of the tubes 16 and arms 50b and 50c are welded as indicated at 54 to the outer wall 42 of the diagonally adjacent tube 16. The splines 50 are of limited length so as to provide adequate support between adjacent shroud tubes but at the same time to permit use of one or more egg crate support structures as will now be described.

As best seen at the upper left in FIG. 5, the spline arms 50a and 50c are flat and are offset with respect to each other, as are arms 50b and 50d. This permits assembly of the modules 16 into rows which are spaced apart only by the thickness of the strips 60, which may thus be considerably thinner than the thickness of arms 50a, 50b, 50c and 50d, and in consequence provide strong and solid connections between the diagonally adjacent modules while reducing the lateral spacing between adjacent rows of modules.

Referring now to FIGS. 8 and 9, each of the egg crate constructions comprises a reticulated arrangement of elongated bars or strips 58 and 60 as best seen in FIG. 9. Bars 58 are provided with notches 62 in their lower edge and bars 60 are provided with notches 64 in their upper edge which interfit to produce the structure illustrated in FIG. 8. It will thus be seen that the egg crate structure defines a multiplicity of rectangular openings 66 in alternate ones of which are received the elongated shrouds or spent fuel storage modules.

Referring now to FIG. 5, it will be observed that the individual strips 58 and 60 extend across the entire assembly of storage modules intermediate the reinforcing ribs 36, and intermediate and above the spline connectors 50.

Referring now to FIGS. 1 and 4, it will be observed that the assemblies made up of the individual shrouds or fuel storage modules 16 are surrounded by suitable diagonal braces 70.

The splines 72 provided at the outer side of a storage rack have only three arms indicated at 72a, 72b and 72c.

With this arrangement a number of vertically elongated storage spaces are provided which is substantially less than the number of shrouds or storage modules required. As the number of storage modules in a single rack increases, the proportion of available storage spaces provided between adjacent modules also increases.

The present design utilizes the unique spent fuel storage modules disclosed in U.S. Pat. No. 4,006,362. Each of these modules comprises radially spaced inner and outer tubes 40, 42 preferably formed of aluminum stainless steel as disclosed in said prior patent and provided at all four sides thereof with a material panel 46 effective to absorb slow neutrons. Preferably the neutron absorbing material contains boron carbide and is completely sealed so as to prevent the pool water from contacting the boron carbide of the absorber material. The racks are assembled into any desired array by using modules in every other storage position, thus providing a checkerboard arrangement. The positions between adjacent modules are used for fuel bundle storage by use of the X-shaped elongated spline members which space the shroud tubes apart and provide substantially continuous corner supports for the fuel bundles. A center to center spacing between stored fuel bundles in a practical embodiment of the present invention is approximately 61/2 inches, while providing one wall of neutron absorbing material between all adjacent storage positions within a rack assembly.

The modules are held together structurally by the two lattice work egg crate support grids, and also by welding the modules to the support base. One support grid is provided just below the top of the modules and the other is as the mid height of the rack. The diagonal bracing on the outside faces of the rack connect the upper and mid support grids to one another and to the base for rigidity and horizontal stability.

The base includes brackets for receiving suitable floor bolts and bearing pads for resting on the pool floor, the openings 24 in the floor plate 22 providing for ample coolant flow to each fuel bundle.

The spent fuel storage modules described above in a practical embodiment of the invention comprise inner and outer tubes formed to aluminum alloy. The wall thickness of the inner tube is 0.060 inches and the wall thickness of the outer tube is 0.090 inches. The core of the sandwich or the intermediate material between the inner and outer tubes comprises four panels of a neutron absorber having an overall wall thickness of 0.105 inches including cladding at each side having a thickness of 0.020 inches and contains a material including a 50% concentration of boron carbide.

It will be understood that the racks are formed of storage modules having a length sufficient to receive spent fuel rods having a length in excess of 14 feet. Despite the relatively great length of the modules and the corresponding relatively greater height of the racks, the provision of the elongated spline connectors, the lattice or egg crate support structures, and the diagonal bracing provides an assembly of sufficient rigidity to be handled by conventional equipment such as, for example, overhead cranes and the like.

The arrangement of spent fuel modules may perhaps be more accurately described as a checkerboard pattern as considered in cross section in which all the modules are arranged in rows and in which in each row the modules occupy only alternate squares of the pattern and leave the remaining squares vacant the modules in each row being staggered with respect to the modules in adjacent rows.

With this arrangement, at the interior of the array of modules each vacant space is surrounded on four sides by modules, so that with both modules and vacant spaces receiving spent fuel cells, no cross radiation between fuel cells or bundles in any module or vacant space can take place with respect to fuel cells or bundles in adjacent modules or vacant spaces. At the outer edges of an array of modules, vacant space defined on three sides by modules, and on the fourth side by the egg crate lattices and/or exterior bracing may receive spent fuel cells safely, since outward emission does not result in the undesired cross radiation.

Mollon, Leslie

Patent Priority Assignee Title
4770844, May 01 1987 Westinghouse Electric Corp. Basket structure for a nuclear fuel transportation cask
6009136, Feb 09 1998 Ionics, Incorporated Damped storage rack for nuclear fuel assemblies
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Patent Priority Assignee Title
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Executed onAssignorAssigneeConveyanceFrameReelDoc
Oct 31 1980AAR Corp.(assignment on the face of the patent)
Aug 12 1981Brooks & Perkins, IncorporatedAAR CORP , 2100 TOUHY AVENUE, OAK GROVE VILLAGE, ILLINOIS 60007, A DE CORP ASSIGNMENT OF ASSIGNORS INTEREST 0049180345 pdf
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