Title :
Enhancement of reactor coolant leakage measurement using radiation instrumentation
Author_Institution :
Lake Hodges Assoc., Escondido, CA, USA
fDate :
6/1/1999 12:00:00 AM
Abstract :
The detection of Reactor Coolant System (RCS) leakage inside containment with sampling radiation monitors located outside containment is reviewed. The target for the radiation monitor response is the clear indication of a one gpm increase in RCS leakage within one hour. The limitations of present methods using beta sensitive detectors are discussed. The limitations are often due to the detection of interfering radioactive materials not related to RCS leakage. Modeling of radioactive material buildup from leakage is used to predict the response of gamma sensitive detectors operated in spectral modes. This would allow isolating isotopes responsive from leak detection considerations from isotopes unresponsive and from isotopes unrelated to RCS leakage
Keywords :
beta-ray detection; fission reactor accidents; fission reactor containment; fission reactor coolants; fission reactor instrumentation; gamma-ray detection; leak detection; beta sensitive detectors; containment; gamma sensitive detectors; interfering radioactive materials; radiation instrumentation; radiation monitor response; radioactive material buildup; reactor coolant leakage measurement; sampling radiation monitors; spectral modes; Coolants; Gamma ray detection; Gamma ray detectors; Inductors; Isotopes; Leak detection; Predictive models; Radiation detectors; Radioactive materials; Sampling methods;
Journal_Title :
Nuclear Science, IEEE Transactions on
