弥散颗粒毒物的多尺度耦合燃耗算法  

作　　者：李学仲 娄磊[2] 柴晓明[2] 王连杰[2] 蔡杰进[1] LI Xuezhong;LOU Lei;CHAI Xiaoming;WANG Lianjie;CAI Jiejin(School of Electric Power,South China University of Technology,Guangzhou 510640,China;Science and Technology on Reactor System Design Technology Laboratory,Nuclear Power Institute of China,Chengdu 610213,China)

机构地区：[1]华南理工大学电力学院,广东广州510640 [2]中国核动力研究设计院核反应堆系统设计技术重点实验室,四川成都610213

出　　处：《原子能科学技术》2023年第3期537-544,共8页Atomic Energy Science and Technology

基　　金：核反应堆系统设计技术重点实验室项目。

摘　　要：弥散颗粒毒物具有特殊的空间结构和较强的空间自屏效应,在燃耗过程中容易出现微观分层现象。在数值模拟中,直接精细化求解将带来巨大的计算量和网格密度,具有一定的挑战。为此,本文提出了一种全新的基于多尺度耦合的燃耗计算方法:通过微观精细球层模型和宏观均匀栅元模型的耦合,将弥散颗粒介质的精细求解问题简化成对一个简单常规介质的快速求解,解决了弥散颗粒毒物在全局范围内精细燃耗求解过程中所面临的计算量大和网格密度高等问题,准确地表征弥散颗粒毒物的燃耗特征,为弥散颗粒介质的求解提供了一个新思路。经过初步验证,该算法在有效增殖因数、中子通量密度和核素核数密度等中子物理参数中有较好的表现。In recent years,particulate burnable poisons have attracted much attention due to their superior properties and are widely used in various reactor design.It is uniformly distributed in the fuel cell,does not occupy the position of the fuel element,and will not cause distortion of the power distribution.Dispersed particulate poisons have multiple dimension for adjustment and optimization,including sizes of particles,concentrations and type of poison particles.They can be adjusted according to actual needs,which can effectively and long-term control the reactive process,with strong flexibility.However,they have special spatial structure and strong spatial self-shielding effect,which leads to microscopic stratification during the burnup process.In numerical simulation,the direct refined solution will bring a huge amount of calculation and great grid density,which has certain challenges.Therefore,a new burnup calculation method based on multi-scale coupling was proposed in this paper.First of all,a new parameter named effective burnable poison proportion fvwas defined and a microscopic fine spherical model was built according to the target cell model.Secondly,equivalent homogenization,which was based on the reactivity equivalence strategy,was performed and the fine spherical model was modified into a microscopic homogeneous spherical model.It could provide important parameters for macroscopic model.By coupling of the microscopic spherical model and the macroscopic cell model,the fine solution problem of the dispersed particulate media was simplified into a fast solution of a simple conventional media.It solves the problems of large amount of calculation and high grid density in the process of solving the fine burnup of the dispersed particulate poison in the global scope,accurately characterizes the burnup characteristics of the dispersed particulate poison,which provides a novel idea for the solution of the dispersed particulate media.Later preliminary verification was provided.Compared with current collision probab

关 键 词：弥散颗粒毒物 分层燃耗计算 多尺度耦合 等效均匀化 

分 类 号：TL329[核科学技术—核技术及应用]