Patent Number: 051679116
Section: claims

1. A fuel assembly comprising a plurality of fuel rods in which nuclear fuel material is contained hermetically,  a lower tie plate, which holds a lower end of the fuel rods and has a coolant flow path formed inside for leading the coolant to a gap between said fuel rods, and  a channel box which encloses a bundle of said fuel rods:  characterized in  a means of resistance, of which pressure loss coefficient is dependent on flow velocity of the passing coolant, installed in a through hole which is provided at a side wall of the lower tie plate to lead a portion of coolant to outside of said fuel assembly from the coolant flow path in the lower tie plate without supplying the portion of coolant to the gap between said fuel rods by connecting to the lower tie plate.  said means of resistance have a plurality of coolant flow paths in which a throat portion is formed respectively, and  cross sectional area of each of the coolant flow paths increases continuously from the throat portion toward both of upper stream side and down stream side, and  encountered side walls of the coolant flow path are formed with continuous smooth planes from the upper stream side to the down stream side of the throat portion.  a plurality of the coolant flow paths are formed between the adjacent resistant members mutually, and  the encountered side walls of the coolant flow path are a surface of the resistant members.  the resistant members are round rods.  the side wall of the lower tie plate has four side planes, and  said means of resistance are installed at two side planes, which are adjacent to the same corner portion, out of the four side planes.  the side wall of the lower tie plate has four side planes, and  said means of resistance are installed at two side planes, which are adjacent to the same corner portion, out of the four side planes, while  said means of resistance is not installed in the through hole at each of other two side planes.  a fuel supporting portion to support lower end of a plurality of fuel rods, and  a cylindrical side wall portion, in which a coolant flow path is formed, connecting to the fuel supporting portion:  characterized in  a means of resistance, of which pressure loss coefficient is dependent on velocity of passing coolant, installed in a through hole, which is provided at the side wall, to lead a portion of coolant from the coolant flow path to outside of the lower tie plate by connecting to the side wall.  said means of resistance have a plurality of coolant flow paths in each of which a throat portion is formed, and  cross sectional area of each of the coolant flow paths increases continuously from the throat portion toward both of upper stream side and down stream side, and  encountered side walls of the coolant flow path are formed with continuous smooth planes from the upper stream side to the down stream side of the throat portion.  a plurality of fuel assemblies each of which comprises  a plurality of fuel rods which contain nuclear fuel material inside hermetically,  a lower tie plate holding a lower end of the fuel rods, in which a coolant flow path to lead coolant to a gap between the fuel rods is formed inside, and  a channel box which encloses a bundle of the fuel rods, wherein  the fuel assemblies are arranged to form a gap region to flow the leak current between each of adjacent fuel assemblies,  characterized in  a means of resistance, in which coolant flow from the lower tie plate to the gap region flows through inside and of which pressure loss coefficient is dependent on velocity of passing coolant, installed at the side wall of the lower tie plate.  said means of resistance have a plurality of coolant flow paths in which a throat portion is formed, and  cross sectional area of each of the coolant flow paths increases continuously from the throat portion toward both of upper stream side and down stream side, and  encountered side walls of the coolant flow path are formed with continuous smooth planes from the upper stream side to the down stream side of the throat portion.  said means of resistance comprises a plurality of resistant members, and  a plurality of the coolant flow paths are formed between the adjacent resistant members mutually, and  the encountered side walls of the coolant flow path are a surface of the resistant members.  said gap region includes the first gap region and the second gap region which locates at a cross point with the first gap region, the second gap region being wider than the first gap region, and  each of the fuel assemblies are arranged so as to touch a portion of the side plane to the first gap region and to touch the rest portion of the side plane to the second gap region, and  a through hole which leads coolant from inside of the lower tie plate to the first gap region is provided at the side plane of the lower tie plate which faces to the first gap region, and  said means of resistance is installed at the side plane of the lower tie plate which faces to the second gap region.  a reactor vessel,  a plurality of fuel assemblies which are loaded in a reactor core in the reactor vessel, and  a reactor core support plate to support the fuel assembly,  characterized in  a means of resistance, in which coolant flow from the lower portion than the reactor core support plate to the gap region flows through inside and of which pressure loss coefficient is dependent on velocity of passing coolant, installed at the reactor core support plate.  said means of resistance have a plurality of coolant flow paths in which a throat portion is formed, and  cross sectional area of each of the coolant flow paths increases continuously from the throat portion toward both of upper stream side and down stream side, and  encountered side wall of the coolant flow path are formed with continuous smooth planes from the upper stream side to the down stream side of the throat portion.  said means of resistance comprises a plurality of resistant members, and  a plurality of the coolant flow paths are formed between the adjacent resistant members mutually, and  the encountered side walls of the coolant flow path are surface of the resistant members. 2. A fuel assembly as claimed in claim 1, wherein 3. A fuel assembly as claimed in claim 2, wherein said means of resistance comprises a plurality of resistant members, and 4. A fuel assembly as claimed in claim 3, wherein 5. A fuel assembly as claimed in claim 1, wherein 6. A fuel assembly as claimed in claim 1, wherein 7. A lower tie plate comprising 8. A lower tie plate as claimed in claim 7, wherein 9. A reactor core of a boiling water reactor comprising 10. A reactor core of a boiling water reactor as claimed in claim 9, wherein 11. A reactor core of a boiling water reactor as claimed in claim 10, wherein 12. A reactor core of a boiling water reactor as claimed in claim 9, wherein 13. A nuclear reactor comprising 14. A nuclear reactor as claimed in claim 13, wherein 15. A nuclear reactor as claimed in claim 14, wherein