科技报告详细信息
Reactor Fuel Isotopics and Code Validation for Nuclear Applications
Francis, Matthew W.1  Weber, Charles F.1  Pigni, Marco T.1  Gauld, Ian C.1 
[1] Oak Ridge National Lab. (ORNL), Oak Ridge, TN (United States)
关键词: O CODES;    FISSION PRODUCTS;    ANTIMONY 125;    CESIUM 137;    KRYPTON 85;    RUTHENIUM 106;    SILVER 109;    CESIUM 133;    EUROPIUM 153;    SAMARIUM ISOTOPES;    SPENT FUELS;    CURIUM ISOTOPES;    NUCLEAR DATA COLLECTIONS;    PLUTONIUM ISOTOPES;    RHODIUM ISOTOPES;    ACTINIDES;    KRYPTON ISOTOPES;    XENON ISOTOPES;    COMPARATIVE EVALUATIONS;    ISOTOPE RATIO;    FISSION YIELD;    RUTHENIUM ISOTOPES;    BWR TYPE REACTORS;    PWR TYPE REACTORS;    BURNUP;    NEODYMIUM ISOTOPES;    COMPUTERIZED SIMULATION;    VALIDATION;    ABUNDANCE;    ACCURACY;    FORECASTING;    LIBRARIES;    CROSS SECTIONS;    ENRICHMENT;    NEUTRON SPECTRA;   
DOI  :  10.2172/1185693
RP-ID  :  ORNL/TM--2014/464
PID  :  OSTI ID: 1185693
Others  :  Other: NN2001000
Others  :  NNPORES
Others  :  TRN: US1500321
美国|英语
来源: SciTech Connect
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【 摘 要 】

Experimentally measured isotopic concentrations of well characterized spent nuclear fuel (SNF) samples have been collected and analyzed by previous researchers. These sets of experimental data have been used extensively to validate the accuracy of depletion code predictions for given sets of burnups, initial enrichments, and varying power histories for different reactor types. The purpose of this report is to present the diversity of data in a concise manner and summarize the current accuracy of depletion modeling. All calculations performed for this report were done using the Oak Ridge Isotope GENeration (ORIGEN) code, an internationally used irradiation and decay code solver within the SCALE comprehensive modeling and simulation code. The diversity of data given in this report includes key actinides, stable fission products, and radioactive fission products. In general, when using the current ENDF/B-VII.0 nuclear data libraries in SCALE, the major actinides are predicted to within 5% of the measured values. Large improvements were seen for several of the curium isotopes when using improved cross section data found in evaluated nuclear data file ENDF/B-VII.0 as compared to ENDF/B-V-based results. The impact of the flux spectrum on the plutonium isotope concentrations as a function of burnup was also shown. The general accuracy noted for the actinide samples for reactor types with burnups greater than 5,000 MWd/MTU was not observed for the low-burnup Hanford B samples. More work is needed in understanding these large discrepancies. The stable neodymium and samarium isotopes were predicted to within a few percent of the measured values. Large improvements were seen in prediction for a few of the samarium isotopes when using the ENDF/B-VII.0 libraries compared to results obtained with ENDF/B-V libraries. Very accurate predictions were obtained for 133Cs and 153Eu. However, the predicted values for the stable ruthenium and rhodium isotopes varied as much as 10% of the measured values, and 109Ag was consistently over-predicted by as much as 170%. In general, there is a larger uncertainty for modeling radioactive fission products when compared to either the actinides or the stable fission products in SNF. The relative C/E ratios ranged from a few percent for 137Cs up to 60% and 100% for 106Ru and 125Sb, respectively. Limited or no radioactive fission products data exist in the current data sets for reactor types other than PWRs and BWRs. More work is needed in obtaining a greater diversity of radioactive fission product data. While performing this survey, issues leading to inconsistencies in nuclear fission yield data were discovered that specifically impacted the fission product noble gases. Emphasis was given to this legacy data, and corrective actions were taken as described in this report. After the fission yield data were corrected, the stable xenon and krypton fission products were predicted to within 5% of their measurements. However, preliminary results not explicitly given in this report indicate that the relative C/E ratio for the radioactive isotope 85Kr varied as much as 10%. Due to the complex migration and the difficulty in measuring noble gases in the fuel, a more thorough investigation is needed to understand how accurately depletion codes can calculate these gas concentrations.

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