Patent Number: 050948059
Section: claims

1. Fuel assembly for a pressurized water reactor, comprising: a) fuel assembly edges, and a fuel assembly interior,  b) a bundle of mutually parallel fuel rods with cladding tubes each having a periphery and containing nuclear fuel, and a given number of guide tubes for control rods;  c) a support structure including an upper end with a fuel assembly head, a lower end with a fuel assembly foot, and a plurality of spacers disposed perpendicular to said fuel rods, said spacers having a uniform grid structure with edge meshes formed therein at said fuel assembly edges and inner meshes formed therein in said fuel assembly interior, each of said inner meshes being surrounded by four respective immediately adjacent meshes each having essentially the same area and each containing a respective one of said tubes; and  d) whereby, for each of said inner meshes containing a guide tube, at least one of said respective immediately adjacent meshes contains a fuel rod in which the spacing of the cladding tube periphery from said inner mesh containing said guide tube is smaller than the spacing of the cladding tube periphery of a fuel rod in an edge mesh from an inner mesh immediately adjacent said edge mesh.  a) a grid-like spacer having a square spacer cross section and having square spacer meshes formed therein with corners, sides and equal areas, said meshes having center points defined by intersecting diagonal lines each passing through two of said corners,  b) a bundle of mutually parallel fuel rods with central axes and cladding tubes containing nuclear fuel, a bundle interior, a fuel bundle edge, and guide tubes disposed in said bundle interior, said fuel rods and said guide tubes each having a circular cross section and each being guided through a respective mesh,  c) a first fuel rod group having a number Z1 of said fuel rods, said central axes of said fuel rods of said first fuel rod group passing through said center points of said meshes in which said fuel rods are disposed,  d) a second fuel rod group having a number Z2 of said fuel rods, said central axes of said fuel rods of said second fuel rod group passing outside of said center points of said meshes in which said fuel rods are disposed,  e) Z1+Z2&gt;0, and  f) if Z2=0,  a) a grid-like spacer having a rectangular spacer cross section and having square spacer meshes formed therein with corners, sides and equal areas, said meshes having center points defined by intersecting diagonal lines each passing through two of said corners,  b) a bundle of mutually parallel fuel rods with central axes and cladding tubes containing nuclear fuel, a bundle interior, a fuel bundle edge, and guide tubes disposed in said bundle interior, said fuel rods and said guide tubes each having a circular cross section and each being guided through a respective mesh,  c) a first fuel rod group of fuel rods all having equal outside diameters and having a number Z1 of said fuel rods, said central axes of said fuel rods of said first fuel rod group passing through said center points of said meshes in which said fuel rods are disposed,  d) a second fuel rod group having a number Z2 of said fuel rods, said central axes of said fuel rods of said second fuel rod group passing outside of said center points of said meshes in which said fuel rods are disposed, and  e) wherein Z1 and Z2 are both at least equal to 1.  a) a grid-like spacer having a rectangular spacer cross section and having square spacer meshes formed therein with corners, sides and equal areas, said meshes having center points defined by intersecting diagonal lines each passing through two of said corners,  b) a bundle of mutually parallel fuel rods with central axes and cladding tubes containing nuclear fuel, a bundle interior, a fuel bundle edge, and guide tubes disposed in said bundle interior, said fuel rods and said guide tubes each having a circular cross section and each being guided through a respective mesh,  c) a first fuel rod group having a number Z1 of said fuel rods, said central axes of said fuel rods of said first fuel rod group passing through said center points of said meshes in which said fuel rods are disposed,  d) a second fuel rod group of fuel rods all having equal outside diameters and having a number Z2 of said fuel rods, said central axes of said fuel rods of said second fuel rod group passing outside of said center points of said meshes in which said fuel rods are disposed,  e) wherein Z1 and Z2 are both at least equal to 1, and  f) said fuel rods of said second fuel rod group having different outside diameters than said fuel rods of said first fuel rod group. 2. Fuel assembly according to claim 1, wherein said cladding tube of said fuel rod in said at least one mesh immediately adjacent said given inner mesh with a guide tube, has a larger outside diameter than a fuel rod in an edge mesh. 3. Fuel assembly according to claim 1, wherein said cladding tube of said fuel rod in said at least one mesh immediately adjacent said given inner mesh with a guide tube, has a central axis being closer to said guide tube than the center of said at least one mesh. 4. Fuel assembly according to claim 1, including at least one instrumentation tube disposed in one of said meshes. 5. Fuel assembly according to claim 1, wherein some of said meshes including all of said four meshes immediately adjacent each given inner mesh with a guide tue, contain fuel rods with a larger outside diameter than a fuel rod in an edge mesh, and some of said meshes including all of said four meshes immediately adjacent each given inner mesh with a guide tube, contain fuel rods with a central axis being closer to said guide tube than the center of said at least one mesh. 6. Fuel assembly according to claim 2, wherein all of said fuel rods in said edge meshes having cladding tubes with a smaller outside diameter than a fuel rod in said at least one mesh immediately adjacent a given inner mesh containing a guide tube. 7. Fuel assembly according to claim 6, wherein said cladding tubes of said fuel rods in inner meshes adjoining edge meshes but not adjacent a given inner mesh containing a guide tube, have a smaller diameter than said cladding tubes of said fuel rods in said at least one mesh immediately adjacent a given inner mesh containing a guide tube. 8. Fuel assembly according to claim 7, wherein all of said fuel rods having a smaller diameter have the same small diameter, and all of the other fuel rods have the same larger diameter. 9. Fuel assembly according to claim 1, wherein some of said fuel rods have central axes which intersect center points of said meshes in which they are disposed and which are spaced apart by a given standard spacing, and at least one of two fuel rods disposed in an edge mesh and in an inner mesh immediately adjacent thereto have central axes which are spaced from the center points of said meshes in which they are disposed and which are spaced apart by a spacing which is greater than said given standard spacing. 10. Fuel assembly according to claim 1, wherein adjacent fuel rods have central axes being mutually spaced apart by equal spacings in a uniform distribution. 11. Fuel assembly according to claim 5, wherein said cladding tubes of said fuel rods have equal outside diameters, and said fuel rods are non-uniformly distributed. 12. Fuel assembly according to claim 9, wherein said cladding tubes of said fuel rods have equal outside diameters, and said fuel rods are non-uniformly distributed. 13. Fuel assembly according to claim 1, wherein at least one of said fuel rods has a different ratio of cladding tube wall thickness to cladding tube outside diameter than another of said fuel rods. 14. Fuel assembly comprising: 15. Fuel assembly comprising: 16. Fuel assembly comprising: