原子能科学技术2024,Vol.58Issue(3):593-603,11.DOI:10.7538/yzk.2023.youxian.0889
基于连续能量蒙特卡罗的快中子反应堆均匀化截面计算方法研究
Generating Multi-group Homogenized Cross-sections Using Continuous-energy Monte Carlo Method for Fast Reactor Analysis
摘要
Abstract
The deterministic two-step method for the fast reactor neutronics calculation,composed of cross-section homogenization and diffusion or transport core calculations,was widely applied in the fast reactor engineering design and analysis field.The homog-enized cross-section calculation method based on Monte Carlo with continuous-energy and fine geometry can provide high-precision cross-sections for advanced fast reactors.The current development status and trends of coupling Monte Carlo-generated homoge-nized cross-sections with diffusion and transport core calculations were briefly reviewed in this paper.The methods discussed include the Monte Carlo flux-volume homogeniza-tion method,the superhomogenization equivalence technique(SPH),and the Monte Carlo flux-moment homogenization method(MHT).The MET-1000 metal fuel fast reactor is used as a benchmark.The SPH equivalent techniques are widely used to pre-serve the reaction rates of a reference heterogeneous model and a homogenous model.In this paper,the SPH was applied to the control rods'cross-section address to improve the diffusion core calculations.This equivalence technique reduces the overestimation of the control rod worth using the diffusion core solver from 13.5%to 0.35%and improves power distribution prediction accuracy.With SPH correction,the MC/diffu-sion in this work exhibits about<±4%error as the insertion of control rods in power distribution.For the transport core calculations,the reasons for core reactivity overesti-mation were quantitatively analyzed,and the MHT method was developed.The basic principle of the MHT homogenization method is to incorporate the anisotropy of the total cross-section concerning the incident angle into the scattering matrix.This allows for the consideration of cross-section anisotropy while maintaining the generality of the generated total cross-section within the core transport solver.The MHT reduces the error of the transport core solving of MET-1000 by 698 pcm.The factors that cause the residual bias were discussed,but there is only about 130 pcm unsolved bias.The flux-volume homogenization method exhibits uneven error distribution,tending to underesti-mate the power at the inner core top and overestimate the power at the outer core bottom,with errors ranging from-3.63%to+4.02%.The MHT homogenization method reduces power prediction errors,with errors ranging between-2.39%and+2.76%,and achieves a more uniform error distribution.This work presented Monte Carlo homogenized cross-section generation methods applicable to diffusion and trans-port core calculations for fast reactor neutronics analysis.The MHT homogenization method provides a novel approach for generating cross-sections suitable for core trans-port calculations in Monte Carlo simulations.However,further validation is needed with different core solvers and fast reactors such as small fast reactors and more hetero-genous fast reactors.The Monte Carlo homogenization method still requires extensive research in various aspects,including the generation of discontinuous factors,the BN leakage model,and methods for handling historical effects.关键词
快堆/蒙特卡罗/确定论两步法/均匀化/多群截面Key words
fast reactor/Monte Carlo/deterministic two-step method/homogenization/multigroup cross-section分类
能源科技引用本文复制引用
郭辉,沈宇阳,吴逸炜,陈萃岚,宋去非,顾汉洋..基于连续能量蒙特卡罗的快中子反应堆均匀化截面计算方法研究[J].原子能科学技术,2024,58(3):593-603,11.基金项目
国家自然科学基金(12105170,12135008) (12105170,12135008)
核反应堆系统设计技术重点实验室基金 ()
