Patent Number: 055374506
Section: claims

1. An on-line method of detecting failed nuclear fuel elements in an operating water cooled nuclear reactor having a plurality of control cells which contain nuclear fuel bundles and into which damping rods can be reciprocated to start, stop and control the rate of nuclear chain reaction, the reactor producing an off-gas stream which, in the case of the existence of one or more failed nuclear fuel elements, includes O-19, N-13, N-16, Kr-85m, Kr-87, Kr-88, Xe-133, Xe-135, Xe-135m and Xe-138 nuclides, comprising, while the reactor continues to operate: a) flowing the off-gas stream from the reactor to a detecting cell of a gamma spectrograph, the flowing being for a time sufficient to reduce gamma radiation produced by O-19 and N-16 nuclides and to reduce Compton scattering produced by O-19, N-13 and N-16 nuclides sufficiently so that the magnitudes of the gamma radiation from at least one of the Kr-85m, Kr-87, Kr-88, Xe-133, Xe-135, Xe-135m and Xe-138 nuclides can be determined in the gas cell, the spectrograph being of sufficiently high resolution to allow such determination; and  b) determining the magnitude of the gamma radiation from the at least one of the Kr-85m, Kr-87, Kr-88, Xe-133, Xe-135, Xe-135m and Xe-138 nuclides in the off-gas stream; and further including, when the magnitude of the gamma radiation from one or more of the Kr-85m, Kr-87, Kr-88, Xe-133, Xe-135, Xe-135m and Xe-138 nuclides is such as to indicate the existence of failed cladding among one or more of the fuel cells, the steps of, while the reactor continues to operate:  c) reciprocating damping rods in a selected subset of the fuel cells sufficiently so as to change the rate of nuclear chain reaction of the selected subset;  d) repeating the flowing and determining steps;  e) designating other fuel cells as the selected subset and repeating steps c) and d) until the effect of the reciprocation of the damping rods in the selected subset on the magnitude of the gamma radiation from the at least one of the Kr-85m, Kr-87, Kr-88, Xe-133, Xe-135, Xe-135m and Xe-138 nuclides in the off-gas stream indicates that a member cell of the selected subset exhibits failed cladding.  f) maintaining a damping rod of the member cell reciprocated into the member cell of the selected subset which exhibits failed cladding sufficiently to stop nuclear chain reaction of the member cell.  a) flowing the off-gas stream from the reactor to a detecting cell of a gamma spectrograph, the flowing being for a time sufficient to reduce gamma radiation produced by O-19 and N-16 nuclides and to reduce Compton scattering produced by O-19, N-13 and N-16 nuclides sufficiently so that the magnitudes of the gamma radiation from at least one of the Kr-85m, Kr-87, Kr-88, Xe-133, Xe-135, Xe-135m and Xe-138 nuclides can be determined in the gas cell, the spectrograph being of sufficiently high resolution to allow such determination;  b) determining the magnitude of the gamma radiation from the at least one of the Kr-85m, Kr-87, Kr-88, Xe-133, Xe-135, Xe-135m and Xe-138 nuclides in the off-gas stream;  c) reciprocating damping rods in a selected subset of the fuel cells sufficiently so as to change the rate of nuclear chain reaction of the selected subset;  d) repeating the flowing and determining steps;  e) designating other fuel cells as the selected subset and repeating steps c) and d) until the effect of the reciprocation of the damping rods in the selected subset on the magnitude of the gamma radiation from the at least one of the Kr-85m, Kr-87, Kr-88, Xe-133, Xe-135, Xe-135m and Xe-138 nuclides in the off-gas stream indicates that a member cell of the selected subset exhibits failed cladding;  f) reciprocating the appropriate rods into the leaking cell or cells sufficiently to alleviate the leak or leaks; and  g) continuing operation of the reactor thereafter.  increasing the degree of withdrawal of rods from non-leaking control cells to increase the amount of power being generated by the reactor. 2. A method as set forth in claim 1, further including, while the reactor continues to operate: 3. A method as set forth in claim 2, wherein in step b) the at least one of the Kr-85m, Kr-87, Kr-88, Xe-133, Xe-135, Xe-135m and Xe-138 nuclides comprises the Xe-133 nuclide. 4. A method as set forth in claim 3, wherein in step b) the magnitude of the Xe-138 nuclide is also determined and wherein a marked increase in the ratio of the magnitude of gamma radiation attributable to Xe-133 to that attributable to Xe-138 is used as an indicator of failed cladding. 5. A method as set forth in claim 1, wherein in step b) the at least one of the Kr-85m, Kr-87, Kr-88, Xe-133, Xe-135, Xe-135m and Xe-138 nuclides comprises the Xe-133 nuclide. 6. A method as set forth in claim 5, wherein in step b) the magnitude of the Xe-138 nuclide is also determined and wherein a marked increase in the ratio of the magnitude of gamma radiation attributable to Xe-133 to that attributable to Xe-138 is used as an indicator of failed cladding. 7. A method as set forth in claim 1, wherein in step b) the at least one of the Kr-85m, Kr-87, Kr-88, Xe-133, Xe-135, Xe-135m and Xe-138 nuclides comprises the Xe-133 nuclide. 8. A method as set forth in claim 7, wherein in step b) the magnitude of the Xe-138 nuclide is also determined and wherein a marked increase the ratio of the magnitude of gamma radiation attributable to Xe-133 to that attributable to Xe-138 is used as an indicator of failed cladding. 9. A method as set forth in claim 1, wherein the time sufficient to reduce gamma radiation produced by O-19 and N-16 nuclides and to reduce Compton scattering produced by O-19, N-13 and N-16 nuclides sufficiently so that the magnitudes of the gamma radiation from Kr-85m, Kr-87, Kr-88, Xe-133, Xe-135, Xe-135m and Xe-138 nuclides can be determined in the gas cell falls within a range from about 3 to about 30 minutes. 10. A method as set forth in claim 1 wherein the flowing of step a) is at a flowrate between about 1 and about 30 cubic feet per hour. 11. A method of continuing to operate an operating water cooled nuclear reactor having a plurality of control cells which contain nuclear fuel bundles and into which damping rods can be reciprocated to start, stop and control the rate of nuclear chain reaction, the reactor producing an off-gas stream which, in the case of the existence of one or more failed clad nuclear fuel elements, includes O-19, N-13, N-16, Kr-85m, Kr-87, Kr-88, Xe-133, Xe-135, Xe-135m and Xe-138 nuclides, the reactor exhibiting one or more leaks indicative of non-catastrophic cladding failure, comprising, while the reactor continues to operate: 12. A method as set forth in claim 11, further including: 13. A method as set forth in claim 12, wherein the increasing is sufficient so that the reactor is operating at substantially full power. 14. A method of detecting failed cladding in a nuclear reactor comprising determining the ratio, in an off-gas stream from the reactor, of the magnitude of gamma radiation attributable to Xe-133 to that attributable to Xe-138.