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Volume 42 Issue 4
Aug.  2021
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Guo Xiang, Kong Fanfu, Zhu Chenghua, Zhu Gang. Research on Safety Criteria in Design of Floating Nuclear Power Plant[J]. Nuclear Power Engineering, 2021, 42(4): 244-249. doi: 10.13832/j.jnpe.2021.04.0244
Citation: Guo Xiang, Kong Fanfu, Zhu Chenghua, Zhu Gang. Research on Safety Criteria in Design of Floating Nuclear Power Plant[J]. Nuclear Power Engineering, 2021, 42(4): 244-249. doi: 10.13832/j.jnpe.2021.04.0244

Research on Safety Criteria in Design of Floating Nuclear Power Plant

doi: 10.13832/j.jnpe.2021.04.0244
  • Received Date: 2020-05-11
  • Rev Recd Date: 2021-01-14
  • Publish Date: 2021-08-15
  • As a combination of marine engineering and nuclear power engineering, the floating nuclear power plant is of a new field of nuclear power engineering. There is no corresponding safety design criteria in China. Combined with the actual design requirements of offshore nuclear power platform demonstration project, based on the analysis of the specifications of onshore PWR nuclear power plants, offshore mobile platform and nuclear power ship, the corresponding safety design criteria are proposed from the aspects of overall design, platform and nuclear safety of floating nuclear power plants. The research shows that the safety design of floating nuclear power plants should focus on three basic safety functions.The platform design should consider six factors, including layout, structure, auxiliary system, power, communication and fire protection. The nuclear safety design should fully consider the constraints of island operation and marine application scenarios on the design and operation of nuclear power plant system equipment.

     

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  • [1]
    LEE K H, KIM M G, LEE J I, et al. Recent advances in ocean nuclear power plants[J]. Energeies, 2015(8): 11470-11492.
    [2]
    李佳佳, 刘峰, 赵芳. 国外海上浮动核电站的产业发展现状[J]. 船舶工程,2015, 39(4): 7-11.
    [3]
    INTERNATIONAL MARITIME ORGNIZATION. The code of safety for the nuclear merchant ship: A491(Ⅻ)[S]. London: IMO, 1981: 23-40.
    [4]
    国家核安全局. 核安全导则汇编[M]. 北京: 中国法制, 2000: 1445-1447.
    [5]
    俄罗斯船舶登记局. 俄罗斯核动力船舶和浮动设施的分级和建造规范: ISBN: 5-89331-096-9[S]. 俄罗斯: 俄罗斯海洋船舶登记局, 2019: 45-50.
    [6]
    郭健, 尤小健, 张乃樑, 等. 海洋核动力平台海洋环境设计基准概率论法[J]. 船舶工程,2017, 39(11): 75-79.
    [7]
    American Society of Mechanical Engineers. Rules for construction of pressure vessels[M]. USA: ASME, 2017: 1987-1999.
    [8]
    国际海事组织. 海上移动式钻井平台构造和设备规则: A414(Ⅺ)[S]. London: IMO, 2009: 50-60.
    [9]
    中国海事局. 海上浮式装置入级规范[S]. 北京: 中国船级社, 2014: 203-208.
    [10]
    海军装备研究院标准规范研究所. 舰船通用规范: GJB 4000—2000[S]. 北京: 中国人民解放军总装备部, 2000: 45-50.
    [11]
    朱继洲. 核反应堆安全分析[M]. 西安: 西安交通大学出版社, 2000: 194-195.
    [12]
    International Atomic Energy Agency. Safety of nuclear power plants design: No. SSR-2/1[S]. Vienna: IAEA, 2016: 134-140.
    [13]
    薛伟, 葛宋, 马晓晨. 核动力舰船堆芯应急冷却供电系统分析[J]. 船科学技术,2013, 35(10): 155-157.
    [14]
    ZVEREV D L, FADEEV Y P. Nuclear power plants for the icebreaker fleet and power generation in the arctic region: development experience and future prospects[J]. Atomic Energy, 2019, 125(6): 364.
    [15]
    赵新文, 蔡琦, 蔡章生. 船用核反应堆概率安全评价的初始事件分析[J]. 核动力工程,2004, 25(6): 538-541. doi: 10.3969/j.issn.0258-0926.2004.06.014
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