UN核芯TRISO燃料颗粒破损概率模型研究  被引量：1

作　　者：钱立波[1] 陈伟[1] 余红星[1] 孙玉发[1] 熊青文 邓坚[1] 刘余[1] 杜思佳[1] 黄涛 QIAN Libo;CHEN Wei;YU Hongxing;SUN Yufa;XIONG Qingwen;DENG Jian;LIU Yu;DU Sijia;HUANG Tao(Science and Technology on Reactor System Design Technology Laboratory,Nuclear Power Institute of China,Chengdu 610041,China)

机构地区：[1]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610041

出　　处：《原子能科学技术》2022年第9期1924-1931,共8页Atomic Energy Science and Technology

基　　金：四川省科技计划(2019ZDZX001)。

摘　　要：TRISO燃料颗粒由核芯和4层包覆层组成,具有良好的裂变产物包容能力。TRISO燃料颗粒破损概率是表征TRISO燃料事故安全特性的关键参数。本文基于修正的PANAMA破损概率计算方法,在考虑UN核芯裂变气体释放导致的气体内压以及内外致密热解炭层辐照蠕变和收缩作用的基础上,开发了UN核芯TRISO燃料颗粒压力壳式破损概率计算方法,并采用IAEA基准题6和基准题9对模型进行了验证;基于开发的UN核芯TRISO颗粒破损概率计算方法,采用随机抽样统计方法分析了事故工况下UN核芯和包覆层设计参数(包括包覆层尺寸及密度)对UN核芯TRISO燃料颗粒破损概率的影响。研究结果显示,疏松热解炭(Buffer)层设计参数是影响TRISO颗粒破损概率的关键因素,可通过降低Buffer层尺寸及密度分布设计标准偏差的方法降低UN核芯TRISO燃料颗粒的破损概率。UN-kernel TRISO particles consist of UN-fuel kernel coated with four layers,including buffer layer,inner high-density pyrocarbon(PyC)layer,SiC layer,and outer high-density pyrocarbon(OPyC)layer,which have good fission product retention capability under normal operation and severe conditions.The failure probability of TRISO particles is one of the most important design parameters that reflect the safety characteristics of TRISO particles under the conditions of normal operation and severe core heatup accidents.Hence,the theoretical method for evaluating the failure probability of UN-kernal TRISO particles was introduced in present work.Firstly,the theoretical model of failure probability for UN-kernel TRISO particle was developed on the model based on a pressure vessel model,namely the modified PANAMA model,which included a degradation effect on the SiC layer due to fission product corrosion,the effect of internal gas generated by fission gas release of UN kernel on SiC layer together with the creep and shrinkage of IPyC layer and OPyC layer on SiC layer.The stress model of SiC layer was rebuilt and validated by IAEA benchmark problems,respectively.Furthermore,the conservative models of creep coefficient,the radial and the tangential swelling rate for high-density pyrocarbon introduced by neutron radiation were introduced.Then the failure probability of UN-kernel TRISO particle under extremely severe conditions(1600℃,up to 1000 EFPD and 30%FIMA)was analyzed by introducing partial random and complete random sampling method.And the Spearman correlation coefficients between the parameters of each layer and the failure probability were also presented.The evaluation results show that the failure probability of UN-kernel TRISO particle increases significantly by random sampling method comparing with the former fixed parameter method and a positive correlation exits between the design parameters of buffer layer(such as dimension and density)and failure probability,while a negative correlation exits for those of other l

关 键 词：TRISO燃料颗粒 UN核芯 破损概率 理论模型 

分 类 号：TL329[核科学技术—核技术及应用]