快堆组件盒壁破损机理模型的建立与验证

Establishment and Validation of Breaking Model of Subassembly Wrapper in Fast Reactor

下载PDF

导出

摘要快堆内发生超设计基准事故后,故障组件盒会发展到沸腾池,事故下一步的传播取决于池壁破损。文章采用机理建模方法,对3种主要盒壁破损机理建立模型,并在法国SCARABEE堆内实验中的BE+3和PV-A实验以及堆外GEYSER实验上进行了模型验证,模型计算结果与实验结果吻合较好。根据模型计算结果,对PV-A实验的池壁破损给予了合理解释,总结出快堆池壁破损的相关结论,并对堆内发生燃料-冷却剂相互作用(FCI)的可能性进行分析,给出了相关结论。 Under the beyond design basis accidental condition, the accidental subassembly steps into boiling pool period quickly. And the accident＇s propagation is up to the collapse of the wrapper. The method of establishing mechanism model was utilized in the paper. And three models were established according to the main mechanisms which were validated on the in-pile experiment BE＋3, PV-A and out-of-pile experiment GEY- SER showing good results. According to the calculation results of the model, a reasonable explanation was derived and some relative conclusion about the wrapper breaking was derived as well. Based on analyzing the possibility of the fuel-coolant interaction phenomena in fast reactor, some conclusions relative to this phenomenon were educed either.

作者赵树峰罗锐王洲石晓波杨献勇

机构地区清华大学热科学与动力工程教育部重点实验室

出处《原子能科学技术》 EI CAS CSCD 北大核心 2007年第4期448-452,共5页 Atomic Energy Science and Technology

关键词快堆沸腾池燃料-冷却剂相互作用 fast reactor boiling pool fuel-coolant interaction

分类号 TL433 [核科学技术—核技术及应用]

引文网络
相关文献

参考文献11

1LIVOLANT M,DADILLON J,KAYSER G,et al.SCARABEE:A test reactor and programme to study fuel melting and propagation in connexion with local faults,objectives and results[C] //Proceedings of 1990 International Fast Reactor Safety Meeting:Vol 2.Snowbird,Utah:ANS,1990:177-186.
2PAPIN J,DOUGALL J M,SESNY R,et al.The SCARABEE total blockages test series:synthesis of the interpretation[C] //Proceedings of 1990 International Fast Reactor Safety Meeting:Vol 1.Snowbird,Utah:ANS,1990:367-376.
3BRETON J P,JAMOND C,CAMOUS F,et al.The SCARABEE molten and boiling pool test series BF experimental results,modeling and interpretation[C] //Proceedings of 1990 International Fast Reactor Safety Meeting:Vol 1.Snowbird,Utah:ANS,1990:357-365.
4SHAMSUNDAR N,SPARROW E M.Analysis of multidimensional conduction phase change via the enthalpy model[J].J Heat Transfer,1975,97:333-340.
5FINK J K,CHASANOV M G,LEIBOWWITZ L.Thermophysical properties of uranium dioxide[J].J Nucl Mater,1981,102:17-15.
6SOUSSAN P,SCHWARZ M,MOXON D,et al.Propagation and freezing of molten material,interpretation of experimental results[C]//Proceedings of 1990 International Fast Reactor Safety Meeting:Vol 2.Snowbird,Utah:ANS,1990:223-232.
7SCHWARZ M,SOUSSAN P,STANSFIELD M C,et al.Interpretation of out-of-pile experiments on the propagation and freezing of molten fuel[C] //Proceeding of the 13th LMBWG Meeting.Winfrith:UKAEA,1988:183-196.
8[美]铁摩辛柯·盖尔.材料力学[M].胡人礼,译.北京:科学出版社,1978:56-58.
9JONES G,SAROUL J,SESNY R.The different APL and BE+ tests within the SCARABEE pro gramme:means used in following and evaluating the evolution of the tests-application to a test of each type[C]//Proceedings of 1986 International Fast Reactor Safety Meeting:Vol 2.London:BNES,1986:389-394.
10DADILLON J,JAMOND C,KAYSER G,et al.The SCARABEE propagation test series PI-A and PV-A[C]//Proceedings of 1990 International Fast Reactor Safety Meeting:Vol 2.Snowbird,Utah:ANS,1990:187-196.

1赵树峰,罗锐,王洲,石晓波,杨献勇.钠冷快堆中熔融池模型的建立与验证[J].核科学与工程,2007,27(2):113-119.
2Adham,K,张世权.1981年—1986年美国核电站燃料破损机理[J].国外核动力,1990,11(2):26-34.
3赵树峰,罗锐,王洲,石晓波,杨献勇.快堆沸腾池数学模型[J].核动力工程,2007,28(4):39-43.
4赵树峰,罗锐,石晓波,王洲,杨献勇.快堆中钠环境下熔融物传播模型的建立与验证[J].核科学与工程,2007,27(3):198-205.
5石晓波,罗锐,王洲.快堆单个燃料组件完全堵流事故的建模及其验证[J].核动力工程,2006,27(1):37-42. 被引量：2
6张向阳,王国保,何高魁,崔尧,曾自强,张立峰,梁政强,殷振国,王鑫.核燃料组件高能X射线无损探测技术研究[J].中国原子能科学研究院年报,2015(1).
7石晓波,罗锐,赵树峰,王洲.快堆严重事故工况下燃料组件盒破损机理的研究[J].核动力工程,2006,27(2):68-71.
8KiyofumiMORIYAMA,YuMARUYAMA,HideoNAKAMURA,顾益宇.评估燃料—冷却剂相互作用的预混合区域中熔融燃料质量的简单方法[J].国外核动力,2003,24(2):28-34.
9刘云焰,孙玉,申凤阳,李国才,李华同,高继宁,赵飞,谷春星.I-1008型组件形位测量仪调试报告[J].中国原子能科学研究院年报,2011(1):22-23.
10王侃,宋鸣.快堆组件内精细功率分布的改进方法与程序[J].核动力工程,1997,18(1):29-33.

原子能科学技术

2007年第4期

浏览历史

内容加载中请稍等...

快堆组件盒壁破损机理模型的建立与验证

参考文献11

相关作者

相关机构

相关主题

浏览历史