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AP1000安全壳流动循环与热分层一维模型分析 被引量:1

One-dimensional Model Analysis of Flow Circulation and Thermal Stratification in AP1000Containment
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摘要 非能动安全壳冷却系统是先进大型压水堆AP1000核电厂的重要安全系统之一,该系统利用安全壳内及安全壳外空气流道中的自然循环过程将安全壳内的热量带至环境中,大空间内的循环与热分层现象对安全壳内的传热及流动特性具有重要影响。本文基于热分层理论,针对钢制安全壳内、外的自然循环过程,建立一维计算模型,在提高计算效率的基础上,得到安全壳内的温度分布,并与三维模型的计算结果进行了对比,验证了模型的合理性;同时得到了安全壳内压力及组分的分布。 Passive containment cooling system is one of the important safety systems in AP1000 .The heat produced in the containment can be transferred to the atmosphere based on natural circulation both in the containment and in the air flow channel outside the containment .T he flow circulation and thermal stratification in the large volume of the containment have essential effect on the flow and heat transfer .In this paper ,one-dimensional thermal-hydraulic model was established based on stratification theory for the natural circulations in and outside the steel containment .The calculation efficiency was improved and the temperature distribution was obtained .By comparing with the result of the three-dimensional model ,the rationality of the one-dimensional model was veri-fied .The pressure and constituent distributions in the containment were also calculated .
作者 玉宇 张鹤 单祖华 胡迎秋 王升飞 牛风雷 刘鑫 刚直
机构地区 华北电力大学核科学与工程学院非能动核能安全技术北京市重点实验室 上海核工程研究设计院 国家核电技术研发中心
出处 《原子能科学技术》 EI CAS CSCD 北大核心 2014年第10期1803-1806,共4页 Atomic Energy Science and Technology
基金 国家自然科学基金资助项目(51206042) 中央高校基本科研业务经费资助项目(12ZX05)
关键词 非能动安全壳 热分层 一维模型 passive containment thermal stratification one-dimensional model
分类号 TL331 [核科学技术—核技术及应用]
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参考文献7

  • 1IAEA Review Team. Report of IAEA international fact finding expert mission of the Fukushima Dai-ichi NPP accident following the great east Japan earth- quake and tsunami[R]. Vienna: IAEA, 2011.
  • 2SCHULZ T L. Westinghouse AP1000 advanced passive plant[J]. Nuclear Engineering and De-sign, 2006, 236:1 547-1 557.
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  • 4林诚格,赵瑞昌,刘志弢.安全壳在事故情况下的完整性分析[J].核科学与工程,2010,30(2):181-192. 被引量:23
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二级参考文献9

  • 1GOTHIC Containment Analysis Package Technical Manual, Version 7.2b, 2009.3.
  • 2国家核安全局.HAF102,核动力厂设计安全规定[S].北京:周家核安全局,2004.
  • 3U.S. Nuclear Regulatory Commmsion Regulations. 10CFR50. Code of Federal Regulations [S]. U. S. NRC, 2006.
  • 4US Nuclear Regulatory Commissions, RG 1. 157, BestEstimate Calculations of Emergency Core Cooling System Performance[S]. U.S. NRC, May 1989.
  • 5Westinghouse LLC, Westinghouse AP1000 Design Control Document[ R]. Westinghouse Electirc Company LLC, 2008.
  • 6U.S. NRC. Final Safety Evaluation Report: Related to certification of the AP1000 standard design[R]. U.S. NRC, 2004.
  • 7T Wicket, et al. Report of the Uncertainty Methods Study for Advanced Best Estimate Thermal Hydraulic Code Applications[M]. 2 vols, Rep. NEA/CSNI R(97) 35. Paris: OECD, 1998.
  • 8Reyes J N, Hochreiter Jr L. Scaling Analysis for the OSU AP600 Test Facility (APEX) [J]. Nuclear Engineering and Design, 1998, (186): 53-109.
  • 9林诚格,刘志弢,赵瑞昌.压水堆失水事故最佳估算方法研究[J].核安全,2010,9(1):1-12. 被引量:16

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原子能科学技术
2014年 第10期

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