Patent Number: 054250641
Section: claims

1. A nuclear reactor comprising: a reactor vessel having included therein a core which includes fuel bundles containing fissionable material and control rods and which is immersed in water, a water inlet and a steam outlet and a measuring device disposed in the vicinity of said core for measuring the water flow in said core, which core produces in its vicinity a radiation field acting as a radiation source for a measuring device, wherein said measuring device includes:  a turbine assembly having a rotor which is rotatably mounted in a housing and which contains at least one radiation field-modulating material for modulating the radiation field produced by the core,  at least one radiation detector for converting the radiation field modulation into a detector signal modulation, and  a converter coupled to said radiation detector for converting said detector signal into a value corresponding to the water flow.  at least one radiation detector for converting the radiation field modulation into a detector signal modulation, and  a converter coupled to said radiation detector for converting said detector signal into a value corresponding to the water flow.  placing a turbine assembly which includes a rotor, which rotor includes a radiation field-modulating material which can cause spatial variations in a radiation flux in the coolant path such that the flow of said coolant sets said rotor of said turbine device into rotation;  detecting with a detector temporal variations in said radiation field which correspond to spatial variations in said radiation field;  determining an oscillation frequency from variations in the output of said detector; and  calculating the liquid flow rate of said coolant from said oscillation frequency. 2. The nuclear reactor as claimed in claim 1, wherein said radiation field-modulating material is a neutron-absorbing material. 3. The nuclear reactor as claimed in claim 2, wherein said neutron-absorbing material includes 113-Cd and 176-180-Hf. 4. The nuclear reactor as claimed in claim 1, wherein said radiation field-modulating material is a material emitting gamma radiation through neutron activation. 5. The nuclear reactor as claimed in claim 4, wherein said gamma radiation-emitting material comprises 45-Sc, 59-Co and 110-Ag. 6. The nuclear reactor as claimed in claim 1, wherein said rotor contains a neutron-absorbing material and a material emitting gamma radiation through neutron activation. 7. The nuclear reactor as claimed in claim 6, wherein both radiation field-modulating materials form a composite material. 8. The nuclear reactor as claimed in claim 7, wherein said composite material comprises 113-Cadmium/Indium/110-Silver. 9. The nuclear reactor as claimed in claim 1, wherein said radiation field-modulating material is included in a rotor blade. 10. The nuclear reactor as claimed in claim 1, wherein said housing of said turbine assembly connects into a water inlet of said core. 11. The nuclear reactor as claimed in claim 1, wherein guide plates are received in said housing of said turbine assembly. 12. The nuclear reactor as claimed in claim 1, wherein said radiation detector is received in a detector tube extending axially along said core. 13. A measuring device for measuring in a nuclear reactor the water flow in a core, which core produces in its vicinity a radiation field acting as a radiation source for a measuring device, comprising a turbine assembly having a rotor which is rotatably mounted in a housing and which contains at least one radiation field-modulating material for modulating the radiation field .produced by the core, 14. A method for measuring a liquid flow in a nuclear reactor comprising a heat-producing core and a coolant flowing along a coolant path through the core, which method comprises the steps of: 15. The method as claimed in claim 14, wherein said radiation field-modulating material absorbs neutrons so that said radiation field-modulating material modulates the neutron field. 16. The method as claimed in claim 14, wherein said radiation field-modulating material is activated by neutrons so that said radiation field-modulating material emits prompt or delayed gamma rays only after placing of turbine assembly.