Patent Number: 051961610
Section: claims

1. A storage rack for retaining hazardous nuclear fuel rod assemblies normally disposed in liquid moderator filled pools while providing passive nuclear accident safety protection, comprising: a) a generally rectangular bottom plate;  b) generally planar upstanding sidewalls conjoined along their vertical edges and joined along their lower edges to the periphery of said bottom plate to form an imperforate container;  c) a plurality of vertically disposed, rectangular receiving tubes having lower ends which rest upon the bottom plate and upper ends of which are conjoined with an upper planar member defining the upper surface of said storage rack;  d) a contiguous inner rectangular shell interposed between said conjoined sidewalls and the elongate receiving tubes disposed therein and spaced from the rack sidewalls to define a peripheral passageway with the sidewalls to permit convection liquid flowthrough of cooler moderator fluid entering from an ambient fluid pool to the rack bottom portion;  e) at least one laterally disposed inlet port on the lower edges of each of said elongate tubes configured to permit moderator liquid entry and upflow therein fostered by the heat which is generated by the nuclear fuel assembly normally stored in said tubes; and  f) at least one outlet port disposed in the upper planar member and overlying each of the elongate tubes to permit escape of warmed temperature moderator liquid from the rack to the ambient filled pool, such that the moderator liquid can circulate through said rack both while it is beneath the pool liquid level and while it is devoid of an ambient liquid envelope.  a) a generally rectangular bottom plate;  b) a plurality of generally upstanding sidewalls conjoined along their vertical edges and joined along their lower edges to the periphery of said bottom plate to form an imperforate container, wherein both said bottom plate and side walls are formed of a high chrome stainless steel;  c) a plurality of vertically disposed, generally square cross section, open ended, elongate receiving tubes which, at their lower ends, rest upon the bottom plate surface and which at their upper ends intersect and are conjoined with an upper planar member defining the upper surface of the rack, said upper member having square edge covers each having one or more ports, and wherein said covers are coaxially aligned with the open ended tubes;  d) a contiguous inner rectangular shell interposed between said conjoined sidewalls and the periphery of the array of elongate receiving tubes disposed therein, said shell being a substantially thinner gauge sheet metal than said bottom plate or sidewalls and said shell having slotted ports therein;  e) the inner shell also being spaced from the rack sidewalls to define a peripheral passageway therebetween which permits convection liquid flowthrough of cooler moderator fluid entering from an ambient fluid pool to the rack bottom portion;  f) one or more laterally disposed ports on the lower edges of each of said elongate tubes adapted for moderator liquid entry and upflow therein as fostered by waste heat generated by the nuclear fuel assemblies normally stored in said tubes; and  g) one or more exit ports disposed in the upper planar member and overlying each of the elongate tubes to permit escape of warmer elevated temperature moderator liquid from the rack to the ambient filled pool, such that the moderator liquid can circulate through said rack both while it is beneath the pool liquid level and while it is devoid of ambient liquid. 2. The storage rack of claim 1 in which the upper member is provided with a plurality of hinged, squared edge covers having one or more ports, wherein the covers are coaxially aligned with the open tops of the elongate tubes. 3. The storage rack of claim 1 in which the rack bottom plate is provided with a resealable drain and refill orifice. 4. The storage rack of claim 1 in which the upper periphery of the rack is provided with two or more perforated lugs to facilitate hoisting and positioning of said rack in said filled pool. 5. The storage rack of claim 1 in which each receiving tube contains at least one fuel assembly, and the array is of elongate tubes is disposed in linear alignment and spaced to facilitate cooling fluid convection flow through the rack reservoir inlet and outlet ports. 6. The storage rack of claim 5 in which the inner rectangular shell has a plurality of generally vertical slots which facilitate moderator liquid flow into the ports on the lower edges of the elongate tubes. 7. The storage rack of claim 1 in which the upper member is provided with a linear array of peripheral ports which keep the rack liquid filled as warmed water escapes from the centrally located exit ports. 8. The storage rack of claim 7 in which the upper edges of the rack are provided with a perforated lug to facilitate lifting and resetting the rack in the liquid filled pool. 9. The storage rack of claim 1 in which the imperforate outer wall comprises high chrome stainless steel and the inner shell comprises a corrosion resistant, thinner gauge sheet metal. 10. A storage rack for retaining hazardous nuclear fuel rod assemblies normally disposed in liquid moderator filled pools and for further providing passive nuclear accident safety protection, said rack comprising: