Patent Number: 053717686
Section: claims

1. In a nuclear fuel bundle for a boiling water reactor comprising in combination: a plurality of upstanding, parallel fuel rods;  a lower tie plate supporting said fuel rods and permitting the entrance of water moderator for the generation of steam;  an upper tie plate for securement to at least some of said fuel rods and permitting the outflow of water and steam moderator;  a channel surrounding said fuel rods from said lower tie plate to at least the vicinity of said upper tie plate for confining a fluid flow path from said lower tie plate to the vicinity of said upper tie plate; and  a plurality of spacers at spaced apart vertical locations extending between said tie plates;  the improvement to said spacers below said upper tie plate including a spacer comprising:  a ferrule array at each said spacer with each said spacer having a vertical height no greater than 0.9 of an inch, each ferrule having a generally annular wall and a wall thickness no greater than 0.020 inches; and  a swirl vane layer overlying subchannel regions between said ferrules and fuel rods for separating water from steam in said region overlying said subchannels and centrifugally impelling water from said subchannel regions upon said fuel rods above said ferrule spacer onto said fuel rods, said swirler vane layer overlying the subchannel regions comprising swirler vanes twisted substantially a complete 180.degree. to overlie substantially the entirety of the subchannel regions, respectively, between the underlying ferrules and fuel rods.  an improved spacer at second and third spaced locations below said upper tie plate.  placing said swirl vanes at less than all of said subchannel region overlying said ferrule spacer.  placing said swirl vanes immediate overlying said ferrules in the subchannel region of said ferrule spacer.  an improved spacer at second and third spacer locations below said upper tie plate;  said swirl vanes being located at less than all of said subchannel regions overlying said ferrule spacer;  said fuel rods being arranged in a matrix of rows and columns, said swirl vanes lying between interior rows and columns of said fuel rods relative to outermost rows and columns of said fuel rods in said bundle whereby improved critical power performance is obtained among interior fuel rods of the bundle. 2. The invention of claim 1 and wherein said improvement to at least some of said spacers includes: 3. The invention of claim 1 and wherein said improvement to at least some of said spacers includes: 4. The invention of claim 1 and wherein said improvement to at least some of said spacers includes: 5. The invention of claim 2 and wherein said improved spacer is added at the fourth location below said upper tie plate. 6. A spacer according to claim 1 wherein said wall thickness is about 0.015 inches. 7. A spacer according to claim 1 wherein substantially the entirety of the projected flow areas through said spacer and between said ferrules and fuel rods being blocked by the twisted vanes. 8. A spacer according to claim 1 wherein said swirl vane layer is comprised of a plurality of continuous bands of metal arranged between adjacent rows of fuel rods with each band having a plurality of generally I-shaped sections with central tabs projecting laterally and lying in a common plane with the I-shaped sections, the I-shaped sections being twisted 180.degree. from top to bottom such that top and bottom portions of the I-shaped sections lie in the common plane and the tabs project substantially perpendicular of said plane, and means for securing the projecting tabs of one band row and the projecting tabs of an adjacent band row to one another. 9. A spacer according to claim 8 wherein one of the upper and lower portions of each I-shaped section is a one-piece unitary construction with adjacent I-shaped sections, and means for connecting another of the upper and lower portion of each I-shaped section to next-adjacent I-shaped sections subsequent to twisting thereof. 10. A spacer according to claim 8 wherein said wall thickness is about 0.015 inches. 11. A spacer according to claim 1 wherein said improvement to at least some of said spacers includes: