Patent Number: 046577297
Section: claims

1. A solid tag material for identifying a nuclear reactor component when placed within the component; comprising solid materials which contain at least one non-gaseous element that undergoes nuclear transmutation into one or more detectable, identifiable, and measurable tag gases on irradiation in a nuclear reactor; wherein the tag gases generated are stable, are not fission products, and are generated in predetermined proportions different from their natural occurrence; whereby on the failure of a component the tag gases can be detected in the reactor cover gas and the failed component identified according to the tag gas composition. 2. A solid tag material as recited in claim 1, comprising one or more solid materials, containing an element or a salt thereof selected from the group consisting of bromine, iodine, chlorine, and flourine. 3. A solid tag material as recited in claim 2, comprising one or more solid materials containing an element or a salt thereof selected from the group consisting of .sup.127 I, .sup.81 Br, .sup.79 Br, .sup.37 Cl, .sup.35 Cl and .sup.19 F. 4. A solid tag material as recited in claim 1, wherein the detectable tag gases generated comprise one or more noble gases. 5. A solid tag material as recited in claim 4, wherein the detectable tag gases generated comprise one or more noble gases selected from the group consisting of .sup.128 Xe, .sup.82 Kr, .sup.80 Kr, .sup.38 Ar, .sup.36 Ar and .sup.20 Ne. 6. A method for tagging a nuclear reactor component; comprising sealing into the reactor component the solid tag material recited in claim 1 comprising one or more solid materials which generate detectable gaseous isotopes on irradiation in a nuclear reactor, whereby the gaseous isotopes generated are released on the component's failure, pass to the reactor cover gas, and are there detected. 7. The method recited in claim 6, wherein different solid tag materials which generate different isotopic gases in a nuclear reactor are sealed into different reactor components; whereby on the failure of a reactor component it can be identified from the specific gaseous isotope or the ratio of gaseous isotopes detected. 8. The method recited in claim 6, wherein in addition to the solid tag materials, gaseous tag materials are sealed into the reactor components. 9. A method for signaling the failure of a nuclear reactor component and identifying the failed component; comprising tagging the component according to the method of claim 7, detecting the presence of the gaseous isotopes in the cover gas, and identifying the constituents and relative proportions of the gaseous isotopes. 10. The method recited in claim 9, wherein after detection, the composition and relative quantities of tag gases are measured using a mass spectrometer. 11. The method recited in claim 9, wherein failure of a component is signaled by detecting the presence of gaseous isotopes different in composition or quantity from a predetermined background level. 12. A fuel element having sealed therein the solid tag material defined in claim 1. 13. A fuel element having sealed therein the solid tag material defined in claim 2. 14. A fuel element having sealed therein the solid tag material defined in claim 3. 15. A nuclear reactor comprising components which have sealed therein the solid tag material defined in claim 1. 16. A nuclear reactor comprising components which have sealed therein the solid tag material defined in claim 2. 17. A nuclear reactor comprising components which have sealed therein the solid tag material defined in claim 3. 18. In a nuclear reactor having fuel in a gas-sealed compartment, an improved material for generating a tag gas which can be used to identify said compartment if gases escape therefrom, said material comprising a solid which contains at least one halogen in a non-gaseous form which will undergo nuclear transformation within said reactor into detectable, identifiable, and measurable noble tag gases.