| [1] | 邹树梁, 葛馨, 黄燕. 海上浮动核电站发展现状及政策标准 [J]. 舰船科学技术, 2019, 41(10): 80-83, 93. DOI: 10.3404/j.issn.1672-7649.2019.10.015. ZOU S L, GE X, HUANG Y. Research on development status and policy standards of floating nuclear power plants at home and abroad [J]. Ship science and technology, 2019, 41(10): 80-83, 93. DOI: 10.3404/j.issn.1672-7649.2019.10.015. |
| [2] | 郑洁, 余凡, 朱军民, 等. 海洋核动力装备国内外发展现况与前景展望 [J]. 中国工程科学, 2023, 25(3): 62-73. DOI: 10.15302/J-SSCAE-2023.03.007. ZHENG J, YU F, ZHU J M, et al. Development status and prospect of marine nuclear power equipment in China and abroad [J]. Strategic study of CAE, 2023, 25(3): 62-73. DOI: 10.15302/J-SSCAE-2023.03.007. |
| [3] | 陈艳霞, 朱成华, 郭健, 等. 海上浮动核电站总体设计初探 [J]. 核动力工程, 2021, 42(3): 171-176. DOI: 10.13832/j.jnpe.2021.03.0171. CHEN Y X, ZHU C H, GUO J, et al. Preliminary study of general design of floating nuclear power plants [J]. Nuclear power engineering, 2021, 42(3): 171-176. DOI: 10.13832/j.jnpe.2021.03.0171. |
| [4] | ROSATOM. World’s only floating nuclear power plant enters full commercial exploitation [EB/OL]. (2020-05-22) [2024-05-01]. https://www.rosatom.ru/en/press-centre/news/roastom-world-s-only-floating-nuclear-power-plant-enters-full-commercial-exploitation/?sphrase_id=5177999. |
| [5] | 赵松, 宋岳. 国内外浮动式核电站发展综述 [C]//中国核科学技术进展报告(第五卷). 威海: 中国核学会, 2017: 104-109. ZHAO S, SONG Y. A development overview of national and international floating nuclear power plant [C]//Progress Report on China Nuclear Science & Technology (Vol.5). Weihai: Chinese Nuclear Society, 2017: 104-109. |
| [6] | 董海防. 海洋核动力平台发展研究综述 [J]. 船舶工程, 2019, 41(11): N9-N14. DONG H F. A review on the development of marine nuclear power platforms [J]. Ship engineering, 2019, 41(11): N9-N14. |
| [7] | 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, 2017, 39(4): 7-11. DOI: 10.13788/j.cnki.cbgc.2017.04.007. LI J J, LIU F, ZHAO F. Development status of overseas offshore floating nuclear plant industry [J]. Ship engineering, 2017, 39(4): 7-11. DOI: 10.13788/j.cnki.cbgc.2017.04.007. |
| [8] | 伍赛特. 海上浮动式核电站应用前景展望 [J]. 能源研究与管理, 2019(2): 11-14. DOI: 10.16056/j.1005-7676.2019.02.004. WU S T. Prospects for the application of offshore floating nuclear power plants [J]. Energy research and management, 2019(2): 11-14. DOI: 10.16056/j.1005-7676.2019.02.004. |
| [9] | 李华成, 刘聪, 劳业程, 等. ACPR50S小型堆核电站海上平台形式论证 [J]. 广东造船, 2015, 34(6): 33-35, 32. DOI: 10.3969/j.issn.2095-6622.2015.06.008. LI H C, LIU C, LAO Y C, et al. Floating platform type design for ACPR50S small offshore nuclear power plant [J]. Guangdong shipbuilding, 2015, 34(6): 33-35, 32. DOI: 10.3969/j.issn.2095-6622.2015.06.008. |
| [10] | 王东辉, 李庆, 宋丹戎, 等. 船坞式浮动核电站总体技术研究 [J]. 核动力工程, 2023, 44(4): 1-8. DOI: 10.13832/j.jnpe.2023.04.0001. WANG D H, LI Q, SONG D R, et al. Overall study of dock-based floating nuclear power plant [J]. Nuclear power engineering, 2023, 44(4): 1-8. DOI: 10.13832/j.jnpe.2023.04.0001. |
| [11] | 于红. 核动力船舶应急准备与响应关键技术研究 [J]. 核动力工程, 2015, 36(6): 105-108. DOI: 10.13832/j.jnpe.2015.06.0105. YU H. Key technology about emergency preparedness and response for nuclear power ships [J]. Nuclear power engineering, 2015, 36(6): 105-108. DOI: 10.13832/j.jnpe.2015.06.0105. |
| [12] | 周佳宇, 李慧子, 高华, 等. 海上浮式核电平台温排水扩散影响因素研究 [J]. 舰船科学技术, 2021, 43(11): 106-111. DOI: 10.3404/j.issn.1672-7649.2021.06.020. ZHOU J Y, LI H Z, GAO H, et al. Research on the influence factors of thermal discharge diffusion for a floating nuclear power plant [J]. Ship science and technology, 2021, 43(11): 106-111. DOI: 10.3404/j.issn.1672-7649.2021.06.020. |
| [13] | 田力荣, 方园, 杨继飞, 等. 浮动式核电站温排水热扩散模拟研究 [J]. 汽轮机技术, 2019, 61(4): 271-274. DOI: 10.3969/j.issn.1001-5884.2019.04.009. TIAN L R, FANG Y, YANG J F, et al. The numerical simulationon hot drainage thermal diffusion of the floating nuclear power plants [J]. Turbine technology, 2019, 61(4): 271-274. DOI: 10.3969/j.issn.1001-5884.2019.04.009. |
| [14] | 戴天奇, 姚世卫, 魏志国. 海上浮动核电站温排水浮升扩散规律数值模拟 [J]. 热力发电, 2015, 44(10): 58-62, 67. DOI: 10.3969/j.issn.1002-3364.2015.10.058. DAI T Q, YAO S W, WEI Z G. Numerical simulation of buoyant and diffusion rules of thermal discharge from floating nuclear power plants [J]. Thermal power generation, 2015, 44(10): 58-62, 67. DOI: 10.3969/j.issn.1002-3364.2015.10.058. |
| [15] | 张延昌, 景宝金, 童波, 等. 浮动核电站载体平台安全性设计初探 [J]. 船舶, 2017, 28(3): 1-9. DOI: 10.19423/j.cnki.31-1561/u.2017.03.001. ZHANG Y C, JING B J, TONG B, et al. Safety design of carrier platform for floating nuclear power plant [J]. Ship & boat, 2017, 28(3): 1-9. DOI: 10.19423/j.cnki.31-1561/u.2017.03.001. |
| [16] | 刘峰, 李佳佳, 刘丽红, 等. 国外海上浮动核电站政策和标准规范 [J]. 船舶工程, 2017, 39(4): 12-15. DOI: 10.13788/j.cnki.cbgc.2017.04.012. LIU F, LI J J, LIU L H, et al. Policies and standards for overseas offshore floating nuclear plant [J]. Ship engineering, 2017, 39(4): 12-15. DOI: 10.13788/j.cnki.cbgc.2017.04.012. |
| [17] | 高慧云, 霍沛强. 超超临界350 MW机组的可行性研究和参数选型分析 [J]. 南方能源建设, 2019, 6(4): 47-53. DOI: 10.16516/j.gedi.issn2095-8676.2019.04.007. GAO H Y, HUO P Q. Feasibility reascher on ultra-supercritical 350 MW unit and analysis of main equipment parameter [J]. Southern energy construction, 2019, 6(4): 47-53. DOI: 10.16516/j.gedi.issn2095-8676.2019.04.007. |
| [18] | BUONGIORNO J, JUREWICZ J, GOLAY M, et al. The offshore floating nuclear plant concept [J]. Nuclear technology, 2016, 194(1): 1-14. DOI: 10.13182/NT15-49. |
| [19] | JUREWICZ J M. Design and construction of an offshore floating nuclear power plant [D]. Cambridge: Massachusetts Institute of Technology, 2015. |
| [20] | 董海防, 尤小健, 许怀锦. 海洋核动力平台—下册—核动力系统与核安全文化 [M]. 武汉: 武汉理工大学出版社, 2018. DONG H F, YOU X J, XU H J. Marine nuclear power platform–nuclear power system and nuclear safety culture [M]. Wuhan: Wuhan University of Technology Press, 2018. |