Studies on calculation models of ASTRA critical facility benchmark using OpenMC
Autor: | Tengfei Zhang, Qingquan Pan, Han Yin, Ding She, Donghao He, Xiaojing Liu, Xiangyue Li |
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Rok vydání: | 2021 |
Předmět: |
020209 energy
Control rod Nuclear engineering Nuclear data 02 engineering and technology ASTRA 01 natural sciences Homogenization (chemistry) Work related 010305 fluids & plasmas Nuclear Energy and Engineering Criticality Benchmark (surveying) 0103 physical sciences 0202 electrical engineering electronic engineering information engineering Nuclear cross section Mathematics |
Zdroj: | Annals of Nuclear Energy. 158:108291 |
ISSN: | 0306-4549 |
Popis: | In this paper we report validation studies of the Monte Carlo code OpenMC by the ASTRA critical facility benchmark. A high-fidelity reactor model is built using the regular lattice coated fuel particle and the body centered cube pebble spheres representations. Two nuclear data libraries, ENDFB-7.0 and ENDFB-7.1 are considered to investigate the validity of nuclear cross section libraries. In addition, three homogenization models namely the core-hom model, the ref-hom model and the CR-hom model are built to provide references for analyzing the spatial approximations employed in deterministic codes. The core-hom model equivalents the octahedral core by a cylindrical zone, the ref-hom model homogenizes the side reflector into a cylindrical region, and the CR-hom model approximates the tube-cluster-shaped control rods (CR) into a concentric annulus. Results demonstrate that ENDFB-7.1 library outperforms ENDFB-7.0 by predicting criticality more accurately. The difference between the two libraries is 1224 pcm for the criticality calculation at the experimental pebble bed height (268.9 cm). With ENDFB-7.1 the high-fidelity model well-predicts the experimental data by 620 pcm error in keff and less than 6.5% difference in CR worth. The homogenization of the reflector brings about a pronounced error of 1143 pcm. In contrast, the core-hom model causes a comparably minor discrepancy of 241 pcm to the keff, while its influence on the CR worth appears most significant for CRs located close to the core zone. The CR-hom model yields a −2.1% maximum accuracy loss in CR worth from the high-fidelity model. After all, both the high-fidelity model and the core-hom model succeed in capturing the CR interference effect and in predicting the trend of CR differential worth. This work is not only meaningful for demonstrating the validity of OpenMC, but also useful to investigate the numerical accuracy of codes used in emerging work related to PBHTGR. |
Databáze: | OpenAIRE |
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