Caruso, S.Murphy, M.Jatuff, F.Chawla, R.2010-09-172010-09-172010-09-17200710.1016/j.anucene.2006.11.009https://infoscience.epfl.ch/handle/20.500.14299/53891WOS:000245029800004A measurement station has been built for the non-destructive investigation of burnt fuel rod segments through high-resolution gamma spectrometry. Four UO2 pressurised water reactor fuel rod segments with different burnup levels between 50 and 100GWd/t and 10 year cooling time have been experimentally characterised using gamma-ray spectrometry to determine 134Cs, 137Cs and 154Eu and their corresponding concentration ratios. Experimental errors of ~2% (1) for the 134Cs/137Cs ratio were obtained for most of the segments. In parallel, pin cell depletion calculations have been performed for each segment using the deterministic code CASMO-4. Measured and calculated ratios have then been compared with the purpose of deriving and validating pin-averaged single-ratio burnup indicators for very high burnups. It is shown that the 134Cs/137Cs ratio, frequently used as a burnup monitor, is considerably less precise for values exceeding 50GWd/t; discrepancies of ~16% are found between measured and calculated values, increasing with burnup up to ~23%. The ratios built with the 154Eu concentration show even much larger discrepancies, essentially because this isotope is rather poorly predicted as revealed by just using different basic cross section data. [All rights reserved Elsevier]fission reactor monitoringfission reactor theorygamma-ray spectroscopyisotopesnuclear engineering computingradioactive waste processingtext::journal::journal article::research article