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Verification of a two-step code system MCS/RAST-F to fast reactor core analysis

Tuan Q. Tran, Alexey Cherezov, Xianan Du, Deokjung Lee

2021Nuclear Engineering and Technology20 citationsDOIOpen Access PDF

Abstract

RAST-F is a new full-core analysis code based on the two-step approach that couples a multi-group cross-section generation Monte-Carlo code MCS and a multi-group nodal diffusion solver. To demonstrate the feasibility of using MCS/RAST-F for fast reactor analysis, this paper presents the coupled nodal code verification results for the MET-1000 and CAR-3600 benchmark cores. Three different multi-group cross-section calculation schemes are employed to improve the agreement between the nodal and reference solutions. The reference solution is obtained by the MCS code using continuous-energy nuclear data. Additionally, the MCS/RAST-F nodal solution is verified with results based on cross-section generated by collision probability code TULIP. A good agreement between MCS/RAST-F and reference solution is observed with less than 120 pcm discrepancy in keff and less than 1.2% root-mean-square error in power distribution. This study confirms the two-step approach MCS/RAST-F as a reliable tool for the three-dimensional simulation of reactor cores with fast spectrum.

Topics & Concepts

Benchmark (surveying)Code (set theory)Nuclear engineeringModified nodal analysisComputer scienceMonte Carlo methodSolverAlgorithmNODALMathematicsEngineeringProgramming languageStatisticsGeographyAnatomySet (abstract data type)GeodesyMedicineNuclear reactor physics and engineeringNuclear Physics and ApplicationsNuclear Materials and Properties
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