Patent Number: 052020851
Section: claims

1. A fuel assembly comprising: a plurality of first fuel rods,  a means for moderating material having a larger cross sectional area in an upper region than a lower region in an axial direction of the fuel assembly and being surrounded with the first fuel rods, and  at least one second fuel rod having a lower enrichment than a cross sectional average enrichment of the fuel assembly and being arranged in locations adjacent to the lower region of the means for the moderating material,  wherein a width of the horizontal cross sectional area at the lower region of said means for moderating material is so set that minimum values of both thermal neutron flux and resonance flux in a vertical direction to the axis of the fuel assembly are located in an outer region with respect to the location of said second fuel rod in the vertical direction to the axis of the fuel assembly, and  wherein the enrichment of said second fuel rod is at most 0.7 of the horizontal cross sectional average enrichment of the fuel assembly.  a plurality of first fuel rods,  a means for moderating material surrounding with said first fuel rods, and  a plurality of second fuel rods arranged at a location adjacent to said means for moderating material,  the enrichment of said second fuel rod is set at most 0.7 of a horizontal cross sectional average enrichment of said fuel assembly.  a plurality of first fuel rods,  a means for moderating material having a larger horizontal cross sectional area at an upper region in an axial direction than the area at a lower region and being surrounded with said first fuel rods, and  a plurality of second fuel rods having lower enrichment than a horizontal cross sectional average enrichment of said fuel assembly and being arranged at a location adjacent to said means for moderating material,  wherein said means for moderating material comprises a water rod having a cruciform horizontal cross section occupying an area equivalent to five fuel unit cells at the lower region, and said second fuel rods are arranged at four denting locations formed by the cruciform horizontal cross section at the lower region of the water rod, and  wherein the enrichment of said second fuel rods is at most 0.7 of the horizontal cross sectional average enrichment of said fuel assembly.  a plurality of first fuel rods,  a means for moderating material having a larger cross sectional area in an upper region than a lower region in an axial direction and being surrounded with the first fuel rods,  a plurality of second fuel rods having a lower enrichment than a cross sectional average enrichment of the fuel assembly and being arranged in a location adjacent to the lower region of the means for he moderating material, and  a channel box surrounding said first fuel rods, said second fuel rods, and said means moderating material,  wherein a width of the horizontal cross sectional area at the lower region of said means for moderating material is so set that minimum values of both thermal neutron flux and resonance neutron flux in a vertical direction to the axis of the fuel assembly are located in an outer region with respect to the location of said second fuel rods in the vertical direction to the axis of the fuel assembly, and the wall thickness of said channel box is selected as thinner at the upper region in the axial direction than at the lower region, and as thicker at corners than any other location, and  wherein the enrichment of said second fuel rods is at most 0.7 of the horizontal cross sectional average enrichment of said fuel assembly.  a plurality of first fuel rods,  a means for moderating material having a larger cross sectional area in an upper region than in a lower region in an axial direction and being surrounded with the first fuel rods,  at least one second fuel rod having a lower enrichment than a cross sectional average enrichment of the fuel assembly an being arranged in a location adjacent to the lower region in the axial direction of the means for the moderating material, and  a means for controlling neutron flux installed in a region, wherein the lower region of said means for moderating material is located, in order to locate minimum values of both thermal neutron flux and resonance neutron flux in a vertical direction to the axis of the fuel assembly at an outer region with respect to the location of said second fuel rod in the vertical direction to the axis of the fuel assembly, and  wherein the enrichment of said second fuel rods at most 0.7 of the horizontal cross-sectional average enrichment of said fuel assembly.  a plurality of first fuel rods;  a means for moderating material having a larger cross sectional area in an upper region than in a lower region in an axial direction and being surrounded with the first fuel rods, and  at least one second fuel rod having a lower enrichment than a cross sectional average enrichment of the fuel assembly and being arranged in a location adjacent to the lower region of the means for the moderating material,  wherein the horizontal cross sectional area at the lower region of the means for moderating material is set so as to locate minimum values of both thermal neutron flux and resonance neutron flux in a vertical direction to the axis of the fuel assembly at an outer region with respect to the location of said second fuel rod in the vertical direction to the axis of the fuel assembly, and  wherein the enrichment of said second fuel rod is at most 0.7 of the horizontal cross sectional average enrichment of said fuel assembly.  a plurality of first fuel rods,  a means for moderating material having a larger cross sectional area in upper region than in a lower region in an axial direction and being surrounded with the first fuel rods, and  at least one second fuel rod having a lower enrichment than a cross sectional average enrichment of the fuel assembly and being arranged in a location adjacent to the lower region of the means for the moderating material,  wherein the horizontal cross sectional area at the lower region of the means for moderating material is set so as to locate minimum values of both thermal neutron flux and resonance neutron flux in a vertical direction to the axis of the fuel assembly at an outer region with respect to the location of said second fuel rod in the vertical direction to the axis of the fuel assembly,  wherein said fuel assemblies are loaded more in the central region than in the peripheral region, and  wherein the enrichment of said second fuel rod is at most 0.7 of the horizontal cross sectional average enrichment of said fuel assembly. 2. A fuel assembly as claimed in claim 1, wherein the horizontal cross sectional area at the lower region of said means for moderating material is equivalent to a sum of horizontal cross sectional areas of at least two of said first fuel rods. 3. A fuel assembly as claimed in claim 1, wherein the enrichment of said second fuel rod is at most 0.5 of horizontal cross sectional average enrichment of said fuel assembly. 4. A fuel assembly as claimed in claim 1, wherein said second fuel rod contains natural uranium. 5. A fuel assembly as claimed in claim 1, wherein said second fuel rod is a short fuel rod arranged at a location adjacent to the lower region of said means for moderating material. 6. A fuel assembly as claimed in claim 5, wherein the axial length of effective fuel length portion of said short fuel rod is at most a half of the axial full length of an effective fuel length portion of said first fuel rod. 7. A fuel assembly as claimed in claim 1, wherein said means of moderating material is a water rod having a larger horizontal cross sectional area at the upper region than the area at the lower region. 8. A fuel assembly as claimed in claim 1, wherein a plurality of said second fuel rods is provided. 9. A fuel assembly comprising 10. A fuel assembly as claimed in claim 9, wherein said means of moderating material comprises a water rod having a uniform horizontal cross sectional area in all through the axial direction and a coolant flow path surrounding the upper region of said water rod. 11. A fuel assembly as claimed in claim 9, wherein said means of moderating material comprises a water rod having a uniform horizontal cross sectional area in all through the axial direction and a plurality of solid moderating rods surrounding the upper region of said water rod. 12. A fuel assembly as claimed in claim 9, wherein the horizontal cross sectional area of said moderating material is so set that the minimum values of both thermal neutron flux and resonance neutron flux in a vertical direction to the axis of the fuel assembly are located in an outer region with respect the location of said second fuel rod in the vertical direction to the axis of the fuel assembly. 13. A fuel assembly as claimed in claim 9, wherein the horizontal cross sectional area of said moderating material is set larger at an upper region than the area at a lower region in the axial direction, and said second fuel rods are arranged in locations adjacent to the lower region of said means for moderating material. 14. A fuel assembly as claimed in claim 9, wherein said second fuel rod contains natural uranium. 15. A fuel assembly as claimed in claim 9, wherein the enrichment of said second fuel rods is set at most 0.5 of the horizontal cross sectional average enrichment of said fuel assembly. 16. A fuel assembly comprising: 17. A fuel assembly as claimed in claim 16, wherein the enrichment of fuel in said second fuel rods is at most 0.5 of the horizontal cross sectional average enrichment of said fuel assembly. 18. A fuel assembly comprising: 19. A fuel assembly comprising: 20. A reactor core of a nuclear reactor loaded with a plurality of fuel assemblies, wherein said fuel assembly comprises: 21. A reactor core of a nuclear reactor as claimed in claim 20, wherein the reactor core has at least a central region and a peripheral region, and said fuel assemblies are arranged more in the central region than in the peripheral region. 22. A reactor core of a nuclear reactor as claimed in claim 20, wherein the reactor core has at least a central region and a peripheral region, and said fuel assemblies are loaded in the central region by three batches dispersion method and in the peripheral region by four batches dispersion method. 23. A loading method of fuel assemblies in a reactor core of a nuclear reactor having at least a central region and a peripheral region, wherein respective ones of said fuel assemblies comprise: 24. A loading method of fuel assemblies in a reactor core of a nuclear reactor as claimed in claim 23, wherein said fuel assemblies are loaded in the central region by three batches dispersion method and in the peripheral region by four batches dispersion method.