RU2002128471A - WATER-WATER ENERGY REACTOR ACTIVE AREA - Google Patents

Claims (6)

1. The active zone of a pressurized water reactor containing fuel assemblies with a hexagonal fuel grid, assembled from rod fuel elements, characterized in that at least one fuel assembly contains from 174 to 216 rod fuel elements having an outer and inner diameter of the shell fuel element from 7.00 · 10 ^-3 m to 8.00 · 10 ^-3 m and from 5.94 · 10 ^-3 m to 6.79 · 10 ^-3 m, respectively, and the water-uranium ratio of the fuel grid is selected from 0.98 to 2.52 or fuel assembly contains from 132 to 168 rods x fuel elements having outer and inner cladding diameter of 7.80 · 10 ^-3 m to 8.79 × 10 ^-3 m and from 6.62 · 10 ^-3 m to 7.47 × 10 ^-3 m, respectively, and the water-to-uranium ratio of the fuel lattice selected from 1.14 to 2.76, and the ratio of the height of the active zone to the length of the fuel Assembly is from 0.7488 to 0.7897. 2. The active zone of the water-water power reactor according to claim 1, characterized in that at least one fuel assembly contains from 180 to 210 rod fuel elements having an outer and inner diameter of the shell of the fuel element from 7.00 · 10 ^-3 m up to 7.90 · 10 ^-3 m and from 5.94 · 10 ^-3 m to 6.70 · 10 ^-3 m, respectively, and the water-uranium ratio of the fuel grid is selected from 1.07 to 2.40 or the fuel assembly contains from 138 to 162 rod heat generating elements having outer and inner cladding diameter of 7.90 · 10 ^-3 m to 8.7 10 ^-3 m and from 6.70 · 10 ^-3 m to 7.38 × 10 ^-3 m, respectively, and the water-to-uranium ratio of the fuel lattice selected from 1.24 to 2.49. 3. The active zone of the water-water power reactor according to claim 1 or claim 2, characterized in that at least one fuel assembly contains from 186 to 204 rod fuel elements having an outer and inner diameter of the shell of the fuel element from 7.10 10 ^-3 m to 7.80 · 10 ^-3 m and from 6.02 · 10 ^-3 m to 6.62 · 10 ^-3 m, respectively, and the water-uranium ratio of the fuel grid is selected from 1.17 to 2.18 or the fuel assembly contains from 144 to 156 rod fuel elements having an outer and inner diameter of the fuel rod cladding from 8.00 · 10 ^-3 m to 8.6 · 10 ^-3 m and from 6.79 · 10 ^-3 m to 7.30 · 10 ^-3 m, respectively, and the water-uranium ratio of the fuel grid is selected from 1.35 to 2.24. 4. The active zone of a pressurized water power reactor according to claim 1 or claim 2 or claim 3, characterized in that at least one fuel assembly contains from 192 to 198 rod fuel elements having an outer and inner diameter of a heat-generating shell element from 7.20 · 10 ^-3 m to 7.70 · 10 ^-3 m and from 6.11 · 10 ^-3 m to 6.53 · 10 ^-3 m, respectively, and the water-uranium ratio of the fuel grate is selected from 1.28 to 1.98 or the fuel assembly contains 144 rod fuel elements having an outer and inner diameter of a fuel cladding from 8.10 · 10 ^-3 m up to 8.5 · 10 ^-3 m and from 6.87 · 10 ^-3 m to 7.21 · 10 ^-3 m, respectively, and the water-uranium ratio of the fuel grid is selected from 1.53 to 2.15. 5. The active zone of the water-water power reactor according to claim 1, characterized in that at least one fuel assembly contains 174 rod fuel elements having an outer and inner diameter of the shell of the fuel element, from 7.6 · 10 ^-3 m to 8.00 · 10 ^-3 m and from 6.45 · 10 ^-3 m to 6.79 · 10 ^-3 m, respectively, and the water-uranium ratio of the fuel grid is selected from 1.20 to 1.89 or the fuel assembly contains 132 rod fuel elements having an outer and inner shell diameter a fuel rod from 8.40 · 10 ^-3 m to 8.79 · 10 ^-3 m and from 7.13 · 10 ^-3 m to 7.47 · 10 ^-3 m, respectively, and the water-uranium ratio of the fuel grid is selected from 1.43 to 2.16. 6. The active zone of the water-water power reactor according to claim 1 or claim 2, characterized in that at least one fuel assembly contains 180 rod fuel elements having an outer and inner diameter of the shell of the fuel element from 7.5 · 10 ^-3 m to 7.90 · 10 ^-3 m and from 6.36 · 10 ^-3 m to 6.70 · 10 ^-3 m, respectively, and the water-uranium ratio of the fuel grid is selected from 1.24 to 1.89 or the fuel assembly contains 138 rod fuel elements having an external and the internal diameter of the cladding of a fuel rod is from 8.30 · 10 ^-3 m to 8.7 · 10 ^-3 m and from 7.04 · 10 ^-3 m to 7.38 · 10 ^-3 m, respectively, and the water-uranium ratio of the fuel grid is selected from 1.44 to 2.10.