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海上浮动核电站堆舱碰撞安全研究
Research on floating nuclear power plant's collision damage safety
谭美, 郭健, 郭翔, 张乃樑
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作者单位:武汉第二船舶设计研究所, 湖北 武汉 430064
中文关键字:海上浮动核电站;安全壳;堆舱;碰撞保护
英文关键字:floating nuclear power plant; containment; reactor compartment; collision protection
中文摘要:海上浮动核电站是小型核反应堆与船舶工程的有机结合,目前国内外均不存在海上浮动核电站相关的设计规范,为了评估海上浮动核电站堆舱碰撞安全水平,本文研究并总结了国际核商船安全规则的堆舱碰撞安全设计要求,对比具有类似特殊安全要求的使用气体或低闪点燃料船舶的燃料舱碰撞安全设计要求,将概率分析法引入堆舱碰撞安全评估,提供了一种海上浮动核电站堆舱碰撞安全评估方法。
英文摘要:The floating nuclear power plant(FNPP)is an organic combination of small nuclear reactors and marine engineering. At present, there is no relevant design code for FNPP worldwide. In order to evaluate the level of collision safety of the FNPP, this paper researched and summarized the international nuclear merchant ship safety code on collision protection design requirements, and compared with similar special fuel tank collision safety requirements of the international code of safety for ships using gases or other low flashpoint fuels. Referred with the design characteristics of floating nuclear power plant project, the probability analysis method is introduced into the safety assessment of the reactor compartment, providing one way for the floating nuclear power plant project reactor collision safety design assessment.
2019,41(8): 85-89 收稿日期:2017-11-08
DOI:10.3404/j.issn.1672-7649.2019.08.017
分类号:U661.73
作者简介:谭美(1985-),男,工程师,海洋核动力平台总体设计
参考文献:
[1] 邱志方, 邓坚, 等. 模块式小堆超压风险及设计优化研究[J]. 原子能科学技术, 2016(1):113-117 QIU Zhi-qiang, DENG Jian. Study on the over-pressure risk and design optimization of modular small reactor[J]., 2016(1):113-117
[2] IMO.ResolutionA.491(XⅡ)1981, Code of Safety for Nuclear Merchant Ships[S].
[3] 尤小健, 乔午峰, 等. 船舶碰撞仿真分析中的单元尺寸与失效应变关系研究[J]. 舰船科学技术, 2017(15):59-63 YOU Xiao-jian, QIAO Wu-feng. Study of relation between element size and failure strain in ship sollision simulation[J]. Ship Science and Technology, 2017(15):59-63
[4] MARIE L. Ship collision damage[D]. Technical University of Denmark, 2001:14-16.
[5] KRAPPINGER O. Collision protection of nuclear ships[R]. The University of Michigan, 1966:42–45.
[6] ALAN B, JOHN S. Protection probabilistic collision damage extent for tanker oil outflow assessment and regulation.[J]. Virginal polytechnic Institute and State University, 2002:514-521.
[7] IMO. Resolution. MSC. 391(95) 2015. Code of safety for ships using gases or other low-flashpoint fuels[S].
[8] 郭娅, 吴顺平, 等. 新能源动力船舶相关国际标准工作进展[J]. 船舶标准化与质量, 2015(2):42-43 GUO Ya, WU Sun-ping. Progress on international standards for new energy powered ships[J]. Shipbuilding Standardization & Quality, 2015(2):42-43
[9] 张丹, 邱志方. 海洋民用核动力安全设计综述[C]//第一届全国小型堆安全监管研讨会, 2016:231-241. ZHANG Dan, QIU Zhi-fang. Marine civil nuclear power safety design review[C]//The First Session of theNational Small Reactors of Safety Seminar, 2016:231-241.
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