PHEBUS FPT0～FPT2实验堆芯降级过程数值模拟

Numerical Simulation of Core Degradation Process in PHEBUS FPT0-FPT2 Experiment

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摘要严重事故下,由于堆芯冷却剂丧失引起的堆芯裸露、过热和熔化过程对后期安全壳完整性、裂变产物行为等具有重要影响。法国辐射防护与核安全研究所主导的PHEBUS-FP研究项目旨在研究轻水堆严重事故下堆芯降级过程以及裂变产物行为。本文使用ATHLET-CD程序对PHEBUS-FP中的FPT0、FPT1和FPT2进行建模计算,主要分析堆芯过热,包壳氧化,堆内材料熔化、迁移及再定位过程。计算结果表明:不同蒸汽流量、不同加热功率将导致不同堆芯降级进程,在趋势上计算值与实验值吻合;模型的限制导致了部分计算值的偏差,本文讨论了包壳氧化与燃料再定位现象中的模型参数。 The core degradation that results from loss of coolant,including core heat-up,cladding oxidation,and fuel damage and relocation,plays an important role on the integrity of containment and the behavior of fission products.The PHEBUS-FP program has been conducted by the French Institute de Radioprotection et de S reté Nucléaire (IRSN),studying the core degradation process and the behavior of fission product.PHEBUS FPT0,FPT1 and FPT2 were simulated using ATHLET-CD code in this paper,focusing on core heat-up,cladding oxidation,and fuel damage and relocation.The results indicate that different steam flows and different heating powers will lead to different core degradation processes,which are in good agreement with experimental data in tendency.And the model parameters in cladding oxidation and fuel relocation were analyzed to discuss the discrepancy of calculation results.

作者罗跃建宋美琪刘晓晶程旭 LUO Yuejian;SONG Meiqi;LIU Xiaojing;CHENG Xu(School of Nuclear Science and Engineering,Shanghai Jiao Tong University,Shanghai 200240,China)

机构地区上海交通大学核科学与工程学院

出处《原子能科学技术》 EI CAS CSCD 北大核心 2019年第5期836-843,共8页 Atomic Energy Science and Technology

关键词严重事故 PHEBUS-FP ATHLET-CD程序堆芯降级 severe accident PHEBUS-FP ATHLET-CD code core degradation

分类号 TL33 [核科学技术—核技术及应用]

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1王高鹏,周喆.应用MECLOR对严重事故实验Phebus FPT3的模拟分析[J].原子能科学技术,2014,48(11):2017-2022. 被引量：1

二级参考文献8

1HERRANZ I. E, VELA-GARIA M, FONTA NET J, et al. Experimental interpretation and code validation based on the PHEBUS-FP pro- gramme: Lessons learnt from the analysis of the containment scenario of FPT1 and FPT2 tests [J]. Nuclear Engineering and Design, 2007, 237:2 210-2 218.
2MARTIN-FUERTES F, BARBERO R, MAR TIN VALDEPENAS R B, et al. Analysis of source term aspects in the experiment Phebus FPT1 with the MELCOR and CFX codes[J]. Nuclear Engineering and Design, 2007, 237: 509-523.
3GYENES G, AMMIRABILE L. Containment analysis on the Phebus FPT-0, FPT-1 and FPT-2 experiments[J]. Nuclear Engineering and De- sign, 2011, 241:854 -864.
4KISSANE M P, DROSIK I. Interpretation of fission-product transport behaviour in the Phebus FPT0 and FPT1 tests[J]. Nuclear Engineering and Design, 2006, 236:1 210-1 223.
5KONTAUTAS A, URBONAVICIUS E. Analy sis of aerosol deposition in PHEBUS containment during FPT-1 experiment[J]. Nuclear Engineer- ing and Design, 2009, 239:1 267-1 274.
6GIRAULT N, DICKINSON S, FUNKE F, et al. Iodine behaviour under LWR accident condi- tions: Lessons learnt from analyses of the first two Phebus FP tests[J]. Nuclear Engineering and Design, 2006, 236:1 293-1 308.
7MICAELLI J C. Phebus FP FPT3: Final report [R]. France: IRSN, 2011.
8MELCOR Computer Code Manuals, Vol. 1: Primer and users & guides, version i. 8.6[R]. US: Sandia National Laboratories, 2005.

1张洋,姚锋,郑广强,周晓芹,黄威.自动铺丝成型中的铺放温度控制技术研究[J].科技与创新,2019(2):1-2. 被引量：1
2杨林强,刘道平,杨亮,朱发明.沉浸比对均流式多管导流型气泡泵性能的影响[J].制冷学报,2019,40(1):51-57. 被引量：3
3张娜娜,王仲钰.个体化饮食护理对妊娠期糖尿病血糖控制效果研究[J].糖尿病天地,2018,15(7):205-206. 被引量：1
4耿轶青,刘辉,马增帅,袁建生.电磁轨道炮枢轨的动态焦尔热特性[J].高电压技术,2019,45(3):799-804. 被引量：10
5臧善文.工业供热蒸汽流量测量的误差分析及降低对策研究[J].信息周刊,2019,0(8):0051-0051.
6张清,李爽,张淑媛,王甜宇,刘广.基于PHP和MySQL的互助性代取平台——顺手网的设计与实现[J].科技视界,2019(8):26-28.
7伍浩松,戴定.美资助法马通开展耐事故燃料研究[J].国外核新闻,2019,0(2):8-8.
8许利民.“华龙一号”压力容器的设计改进和优化[J].核安全,2019,18(1):58-65. 被引量：2
9王鸡换,江琴佳.秦山核电厂全厂失电事故序列分析[J].科技视界,2018(3):190-191.
10罗云,李淑杰,刘燕,张克勤.阻塞性睡眠呼吸暂停低通气综合征患者血液凝血功能检测分析[J].内科,2019,14(2):155-157. 被引量：4

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PHEBUS FPT0～FPT2实验堆芯降级过程数值模拟

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