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AP1000核电厂大量放射性释放源项分析 被引量:8

Analysis of Large Release Source Terms in AP1000 Nuclear Power Plant
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摘要 在AP1000核电厂的某些严重事故情景中,安全壳可能发生失效或旁通,导致大量放射性物质释放到环境中,造成严重的放射性污染。针对大量放射性释放频率贡献最大的3种释放类别(安全壳旁通、安全壳早期失效和安全壳隔离失效),分别选取典型的严重事故序列(蒸汽发生器传热管破裂、自动卸压系统阀门误开启和压力容器破裂),使用MAAP程序计算分析了释放到环境中的裂变产物源项。该分析结果为量化AP1000核电厂的放射性释放后果和厂外剂量分析提供了必要的输入。 In some severe accident scenarios of AP1000 nuclear power plant,a breach or bypass of the containment will lead to large release to environment,which causes severe radioactive pollution of environment.Three release categories(bypass,early containment failure and containment isolation failure) have the largest contribution to large release frequency.Three typical severe accidents(steam generator tube rupture,spuriously open of automatic depressurization system valves and reactor pressure vessel rupture) were selected as typical cases corresponding to the three release categories and the fission-product source terms released to environment were calculated using MAAP code.The analysis results are provided as essential input data for quantifying the release of AP1000 nuclear power plant and the offsite dose analysis.
作者 张琨
机构地区 上海核工程研究设计院
出处 《原子能科学技术》 EI CAS CSCD 北大核心 2012年第9期1107-1111,共5页 Atomic Energy Science and Technology
关键词 AP1000 大量放射性释放 严重事故 源项 AP1000 large release severe accident source term
分类号 TL364.4 [核科学技术—核技术及应用]
  • 相关文献

参考文献4

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同被引文献44

  • 1张龙飞,张大发,王少明.压水堆大破口失水事故引发的严重事故研究[J].原子能科学技术,2007,41(5):560-564. 被引量:7
  • 2NEA.Insights into the control of the release of iodine,cesium,strontium and other fission products in the containment by severe accident management[R].NEA/ CSNI/R (2000) 9,2000.
  • 3T.Haste,J.Birchley,et al.MELCOR/MACCS simulation of the TMI-2 severe accident and initial recovery phases,off-site fission product release and consequences[J].Nuclear Engineering and Design,2006.
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  • 8Min Lee,Yu Chih Ko.Quantification of severe accident source terms of a Westinghouse 3 loop plant.Nuclear Engineering and Design,Vol 238(2008):1080-1092.
  • 9Amy C.Slaga,Stanley H.Levinson,Robert Prior,et al.MAAP4.0.7 Severe Accident Source Term Analysis.Proceedings of ICAPP,08Anaheim,CA USA,June 8 12,Paper 8201,2008.
  • 10P.Giordano,A.Auvinen,G.Brillant,et al.Recent advances in understanding ruthenium behaviour under air ingress conditions during a PWR severe accident.Progress in Nuclear Energy,Vol 52 (2010):109-119.

引证文献8

二级引证文献12

原子能科学技术
2012年 第9期

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