Patent Number: 047599120
Section: description

DETAILED DESCRIPTION OF THE INVENTION In the following description, like reference characters designate like or corresponding parts throughout the several views of the drawings. Also in the following description, it is to be understood that such terms as "forward", "rearward", "left", "right", "upwardly", "downwardly", and the like are words of convenience and are not to be construed as limiting terms. In General Referring now to the drawings, and particularly to FIGS. 1 to 5, there is shown a nuclear fuel assembly, generally designated 10, for a BWR to which the improved features of the present invention are advantageously applied. The fuel assembly 10 includes an elongated outer tubular flow channel 12 that extends along substantially the entire length of the fuel assembly 10 and interconnects an upper support fixture or top nozzle 14 with a lower base or bottom nozzle 16. The bottom nozzle 16 which serves as an inlet for coolant flow into the outer channel 12 of the fuel assembly 10 includes a plurality of legs 18 for guiding the bottom nozzle 16 and the fuel assembly 10 into a reactor core support plate (not shown) or into fuel storage racks, for example in a spent fuel pool. The outer flow channel 12 generally of rectangular cross-section is made up of four interconnected vertical walls 20 each being displaced about ninety degrees one from the next. Formed in a spaced apart relationship in, and extending in a vertical row at a central location along, the inner surface of each wall 20 of the outer flow channel 12, is a plurality of structural ribs 22. The outer flow channel 12, and thus the ribs 22 formed therein, are preferably formed of a metal material, such as an alloy of zirconium, commonly referred to as Zircaloy. Above the upper ends of the structural ribs 22, a plurality of upwardly-extending attachment studs 24 fixed on the walls 20 of the outer flow channel 12 are used to interconnect the top nozzle 14 to the channel 12. For improving neutron moderation and economy, a hollow water cross, generally designated 26, extends axially through the outer channel 12 so as to provide an open inner channel 28 for subcooled moderator flow through the fuel assembly 10 and to divide the fuel assembly into four, separate, elongated compartments 30. The water cross 26 has a plurality of four radial panels 32 composed by a plurality of four, elongated, generally L-shaped, metal angles or sheet members 34 that extend generally along the entire length of the channel 12 and are interconnected and spaced apart by a series of elements in the form of dimples 36 formed in the sheet members 34 of each panel 32 and extending therebetween. The dimpels 36 are provided in opposiong pairs that contact each other along the lengths of the sheet members 34 to maintain the facing portions of the members in a proper spaced-apart relationship. The pairs of contacting dimples 36 are connected together such as by welding to ensure that the spacing between the sheet members 34 forming the panels 32 of the central water cross 26 is accurately maintained. The hollow water cross 26 is mounted to the angularly-displaced walls 20 of the outer channel 12. Preferably, the outer, elongated longitudinal edges 38 of the panels 32 of the water cross 26 are connected such as by welding to the structural ribs 22 along the lengths thereof in order to securely retain the water cross 26 in its desired central position within the fuel assembly 10. Further, the inner ends of the panels together with the outer ends thereof define the inner central cruciform channel 28 which extends the axial length of the hollow water cross 26. Also, the water cross 26 has a lower flow inlet end 39 and an opposite upper flow outlet end 40 which each communicate with the inner channel 28 for providing subcoolant flow therethrough. Disposed within the channel 12 is a bundle of fuel rods 42 which, in the illustrated embodiment, number sixty-four and form an 8.times.8 array. The fuel rod bundle is, in turn, separated into four mini-bundles thereof by the water cross 26. The fuel rods 42 of each mini-bundle, such being sixteen in number in a 4.times.4 array, extend in laterally spaced apart relationship between an upper tie plate 44 and a lower tie plate 46 and connected together with the tie plates comprise a separate fuel rod subassembly 48 within each of the compartments 30 of the channel 12. A plurality of grids or spacers 50 axially spaced along the fuel rods 42 of each fuel rod subassembly 48 maintain the fuel rods in their laterally spaced relationships. Coolant flow paths and cross-flow communication are provided between the fuel rod subassemblies 48 in the respective separate compartments 30 of the fuel assembly 10 by a plurality of openings 52 formed between each of the structural ribs 22 along the lengths thereof. Coolant flow through the openings 52 serves to equalize the hydraulic pressure between the four separate compartments 30, thereby minimizing the possibility of thermal hydrodynamic instability between the separate fuel rod subassemblies 48. The above-described basic components of the BWR fuel assembly 10 are known in the prior art, except for modification of the Fuel rods 42 to comprise part of the hybrid fuel design of the present invention, as described hereinafter. The BWR fuel assembly 10, disclosed in greater detail in the patent to Barry et al cited above, has been discussed in sufficient detail herein to enable one skilled in the art to understand the hybrid fuel design of the present invention presented hereinafter. For a more detailed description of the construction of the BWR fuel assembly, attention is directed to the above-mentioned Barry et al patent. Hybrid Fuel Design for Avoiding PCI Constraints and Failures The present invention provides improved features in the form of a hybrid fuel design which minimizes PCI constraints and eliminates PCI failures. Referring to FIGS. 4-7, the hybrid fuel design comprises a cladded rod-type nuclear fuel in the form of the fuel rods 42 subdivided into the mini-bundles thereof being located within the compartments 30 and spaced transversely from both the walls 20 of the outer channel 12 and the radial panels 32 of the water cross 26, and a cladded plate-type nuclear fuel in the form of elongated fuel plates 54 respectively attached on the exterior of the radial panels 32 of the water cross 26. Power generation in the fuel assembly 10 is now distributed between the fuel rods 42 and fuel plates 54 such that there is reduced power generation per fuel rod/plate which minimizes PCI failures and avoids any nuclear/hydraulic stability problems. For example, power generation per fuel rod has been reduced approximately twenty percent from what it was heretofore, based on the twenty-five percent increase in heated perimeter. More particularly, each fuel plate 54 attached on the exterior of a water cross radial panel 32 is, preferably, generally coextensive in length with the fuel rods 42. Also, preferably the fuel plate 54 is generally coextensive in width with the water cross panel 32 but shorter in length than the panel. Additionally, each fuel plate 54 includes an arcuate-shaped (right-angled) inner sheet 56 of nuclear fuel disposed adjacent the exterior of each of a pair of the water cross panels 32 and an arcuate-shaped (right-angled) outer sheet 58 of cladding disposed adjacent the exterior of the inner sheet 56. The outer sheet at its periphery 60 has an inwardly-turned rim 62 by which it is attached to the pair of water cross panels 32 so as to sealably encase or enclose the inner sheet 56 of nuclear fuel from contact with the flowing coolant/moderator liquid. The nuclear fuel of the inner sheet 56 can be the same composition as the nuclear fuel in pellet form in the fuel rods 42, for example, uranium oxide. The cladding of the outer sheet 58 can be the same composition as the cladding of the fuel rods 42, such as zirconium oxide, which also can be the composition of the water cross 26. It is thought that the invention and many of its attendant advantages will be understood from the foregoing description and it will be apparent that various changes may be made in the form, construction and arrangement thereof without departing from the spirit and scope of the invention or sacrificing all of its material advantages, the form hereinbefore described being merely a preferred or exemplary embodiment thereof.