[1] 国际首台加速器驱动次临界系统(ADS)嬗变研究装置将开建[EB/OL].[2018-05-10].http://news.sciencenet.cn/htmlnews/2018/4/407984.shtm. The world's first accelerator-driven subcritical system (ADS) metamorphosis research device will be built[EB/OL].[2018-05-10]. http://news.sciencenet.cn/htmlnews/2018/4/407984.shtm.
[2] 周兴彬, 赵永松, 方海涛, 等. 加速器驱动次临界系统核数据库ANDL-ADS的研发和初步测试[J]. 核技术, 2018, 41(3):65-70. Zhou Xingbin, Zhao Yongsong, Fang Haitao, et al. Development and preliminary test of date library ANDL-ADS for accelerator-driven systems[J]. Nuclear Techniques, 2018, 41(3):65-70.
[3] 岳军会, 吕朋辉, 曹建社, 等. ADS注入器I束流相位及能量测量系统设计[J]. 核技术, 2018, 41(2):35-41. Yue Junhui, Lu Penghui, Cao Jianshe, et al. Beam phase and energy measurement system of ADS injector I[J]. Nuclear Techniques, 2018, 41(2):35-41.
[4] 李胜强, 谭铭, 张展博. 含黏性力最速降线问题的最优化解法及其在ADS设计中的应用[J]. 清华大学学报(自然科学版), 2018, 58(6):563-569. Li Shengqiang, Tan Ming, Zhang Zhanbo. An optimication method of brachistochrone problem with viscous friction and its application in ADS design[J]. Journal of Tsinghua University (Science and Technology), 2018, 58(6):563-569.
[5] 郑琪, 吴宏春, 李云召, 等. ADS瞬态分析中的概率论-确定论耦合方法[J]. 强激光与粒子束, 2018, 30(1):132-138. Zheng Qi, Wu Hongchun, Li Yunzhao, et al. Coupled stochastic-deterministic method for accelerator-driven subcritrical system transient analysis[J]. High Power Laser and Particle Beams, 2018, 30(1):132-138.
[6] 刘照青, 赵泽龙, 杨永伟, 等. ADS中液态铅铋靶流动管道屏蔽计算[J]. 核技术, 2018, 41(3):93-98. Liu Zhaoqing, Zhao Zelong, Yang Yongwei, et al. Shielding calculation of LBE target flow pipeline in ADS[J]. Nuclear Techniques, 2018, 41(3):93-98.
[7] 梁淑红, 朱庆福, 史永谦, 等. 跳源法测量ADS启明星Ⅱ号的次临界度及动态特性[J]. 原子能科学技术, 2018, 52(2):302-306. Liang Shuhong, Zhu Qingfu, Shi Yongqian, et al. Sub-critical reactivity and dynamic characteristic measured by Souce-Jerk method on VENUS-Ⅱ[J]. Atomic Energy Science and Technology, 2018, 52(2):302-306.
[8] 王璠, 朱庆福, 陈效先, 等. 启明星Ⅱ快中子能谱区裂变率分布研究[J]. 原子能科学技术, 2018, 52(1):107-111. Wang Fan, Zhu Qingfu,Chen Xiaoxian, et al. Fission rate distribution research for Venus Ⅱ fast neutron spectrum zone[J]. Atomic Energy Science and Technology, 2018, 52(1):107-111.
[9] 中国正引领全球熔盐堆研发技术可应用于高效储能[EB/OL].[2019-01-10]. http://chuneng.bjx.com.cn/news/20190107/9544-28.shtml. China is leading the R&D technology of the global molten salt reactor for efficient energy storage[EB/OL].[2019-01-10]. http://chuneng.bjx.com.cn/news/20190107/954428.shtml.
[10] 何越, 程懋松, 戴志敏. TMSR云仿真平台初步设计与实现[J]. 核技术, 2018, 41(7):79-86. He Yue, Cheng Maosong, Dai Zhimin. Preliminary design and implementation of TMSR cloud simulation platform[J]. Nuclear Techniques, 2018, 41(7):79-86.
[11] 唐辉, 贺周同, 张灿, 等. 核石墨与熔盐相容性测试装置设计与实验[J]. 核技术, 2018, 41(7):92-98. Tang Hui, He Tongzhou, Zhang Can, et al. Equipment design and experiment of compatibility test of nuclear graphite and molten salt[J]. Nuclear Techniques, 2018, 41(7):92-98.
[12] 缪洪康, 陈玉爽, 吕刘帅, 等. 基于双向流固耦合的换热管流致振动分析[J]. 核技术, 2018, 41(5):80-86. Miao Hongkang, Chen Yushuang, Lü Liushuai, et al. Flow-induced vibration analysis of heat transfer tube based on twoway fluid-structure interaction[J]. Nuclear Techniques, 2018, 41(5):80-86.
[13] 程懋松, 林铭, 左献迪, 等. 基于指数变换的三维六角形节块法动力学程序开发及验证[J]. 核技术, 2018, 41(6):85-94. Cheng Maosong, Lin Ming, Zuo Xiandi, et al. Development and validation of a three-dimensional hexagonal nodal timespatial kinetics code based on exponential transform[J]. Nuclear Techniques, 2018, 41(6):85-94.
[14] 朱帆, 伍建辉, 陈金根, 等. 棒状氢化锆慢化钍基熔盐堆中子学性能优化[J]. 原子能科学技术, 2018, 52(9):1656-1664. Zhu Fan, Wu Jianhui, Chen Jingen, et al. Neutronic optimization of thorium molten salt reactor moderated by zirconium hydride rod[J]. Atomic Energy Science and Technology, 2018, 52(9):1656-1664.
[15] 庄坤, 曹良志, 汤晓斌. 基于MOREL2.0对石墨慢化熔盐堆的稳态分析[J]. 原子能科学技术, 2018, 52(10):1774-1779. Zhuang Kun, Cao Liangzhi, Tang Xiaobin. Steady analysis of graphite-moderator molten salt reactor based on MOREL 2.0[J]. Atomic Energy Science and Technology, 2018, 52(10):1774-1779.
[16] 我国首座高温气冷堆示范工程进入燃料系统调试阶段[EB/OL].[2018-10-12]. http://news.sina.com.cn/c/2018-09-21/doc-ihkhfqnt4053514.shtml. China's first high-temperature gas-cooled reactor demonstration project entered the fuel system commissioning stage[EB/OL].[2018-10-12]. http://news.sina.com.cn/c/2018-09-21/doc-ihkhfqnt4053514.shtml.
[17] 全球首台高温气冷堆蒸汽发生器问世[EB/OL].[2018-12-13]. https://baijiahao.baidu.com/s?id=1615887475342099318-&wfr=spider&for=pc. The world's first steam generator of the high-temperature gascooled reactor came out[EB/OL].[2018-12-13]. https://baijiahao.baidu.com/s?id=1615887475342099318&wfr=spider&for=pc.
[18] 朱光宇, 朱宏晔, 居怀明, 等. 高温气冷堆堆芯主动冷却过程动态分析[J]. 原子能科学技术, 2018, 52(2):255-261. Zhu Guangyu, Zhu Hongye, Ju Huaiming, et al. Transient analysis of active cooling procedure of HTR reactor core[J]. Atomic Energy Science and Technology, 2018, 52(2):255-261.
[19] 李俊, 银华强, 何学东, 等. 高温气冷堆内含硼碳材料吸湿特性与扩散系数研究[J]. 原子能科学技术, 2018, 52(4):622-626. Li Jun, Yin Huaqiang, He Xuedong, et al. Moisture absorption property and diffusion coefficient of carbon material with boron carbide in HTGR[J]. Atomic Energy Science and Technology, 2018, 52(4):622-626.
[20] 原越, 黄晓津. 高温气冷堆核蒸汽供应系统出口蒸汽温度的T-S模糊控制方法[J]. 原子能科学技术, 2018, 52(4):699-704. Yuan Yue, Huang Xiaojin. T-S fuzzy method for contral of steam temperature of modular-HTGR-based nuclear steam supplying system[J]. Atomic Energy Science and Technology, 2018, 52(4):699-704.
[21] "因美国新政,我和中国的核能项目黄了"[EB/OL].[2019-01-09]. https://baijiahao.baidu.com/s?id=16215588326097715-80&wfr=spider&for=pc. Bill Gates' nuclear venture hits snag amid U.S. restrictions on China deals[EB/OL].[2019-01-09]. https://baijiahao.baidu.com/s?id=1621558832609771580&wfr=spider&for=pc.
[22] 郑美银, 陈平, 李权, 等. 钠冷行波堆和驻波堆堆芯特性对比分析[J]. 原子能科学技术, 2018, 52(3):397-404. Zheng Meiyin, Chen Ping, Li Quan, et al. Constrastive analysis of core characteristics for sodium cooled traveling wave reactor and standing wave reactor[J]. Atomic Energy Science and Technology, 2018, 52(3):397-404.
[23] 福建省霞浦县核电示范快堆工程土建开工[EB/OL].[2018-02-05]. http://www.china-nengyuan.com/news/118922.html. Civil construction of the nuclear power demonstration fast reactor project started in Xiapu County, Fujian Province[EB/OL].[2018-02-05]. http://www.china-nengyuan.com/news/118922.html.
[24] 中俄最大核能合作签署框架合同总价36亿美元[EB/OL].[2018-07-15]. https://military.china.com/important/11132797/20180613/32519131_all.html#page_2. China-Russia largest nuclear energy cooperation signed framework contract with the total price of 3.6 billion US dollars[EB/OL].[2018-07-15]. https://military.china.com/important/11132797/20180613/32519131_all.html#page_2.
[25] 俄原子能集团将协助中方生产CFR-600快中子示范反应堆用核燃料[EB/OL].[2018-12-15]. http://news.bjx.com.cn/html/20181030/937889.shtml. Russian Atomic Energy Group will assist China in producing nuclear fuel for CFR-600 fast neutron demonstration reactor[EB/OL].[2018-12-15]. http://news.bjx.com.cn/html/201810-30/937889.shtml.
[26] 李淞, 杨红义, 周志伟, 等. 基于克里金方法的快堆燃料组件设计[J]. 原子能科学技术, 2018, 52(7):1288-1293. Li Song, Yang Hongyi, Zhou Zhiwei, et al. Design of fast reactor fuel assembly based on kriging method[J]. Atomic Energy Science and Technology, 2018, 52(7):1288-1293.
[27] 张松梅, 张东辉. 钠冷快堆棒状燃料堆芯子通道分析程序开发及验证[J]. 原子能科学技术, 2018, 52(2):320-325. Zhang Songmei, Zhang Donghui. Development and verification of sub-channel analysis code for solid fuel core of sodium cooling fast reactor[J]. Atomic Energy Science and Technology, 2018, 52(2):320-325.
[28] 尧俊, 张熙司, 胡文军, 等. 铅铋冷却快堆堵流事故下堵块参数对流动传热的影响[J]. 核技术, 2018, 41(2):80-88. Yao Jun, Zhang Xisi, Hu Wenjun, et al. Effect of block parameter on fluid flow and heat transfer in LBE-cooled fast reactor under blockage accident[J]. Nuclear Techniques, 2018, 41(2):80-88.
[29] 叶尚尚, 杨红义, 刘一哲, 等. 钠冷快堆二回路系统热工水力瞬态分析程序SELTAC的开发与应用[J]. 原子能科学技术, 2018, 52(6):1013-1020. Ye Shangshang, Yang Hongyi, Liu Yizhe, et al. Development and application of transient analysis code SELTAC for secondary loop of sodium-cooled fast reactor[J]. Atomic Energy Science and Technology, 2018, 52(6):1013-1020.
[30] 王晨香. 超临界水冷堆:举旗国际前沿[J]. 中国核工业, 2018(2):18-21. Wang Chenxiang. Supercritical water cooled reactor:the frontier of the world[J]. China Nuclear Industry, 2018(2):18-21.
[31] 王为术, 侯彦亮, 徐维晖, 等. 超临界水冷堆类三角形子通道传热不均匀性研究[J]. 核动力工程, 2018, 39(3):33-39. Wang Weishu, Hou Yanliang, Xu Weihui, et al. Investigation on nonuniformity of heat transfer in triangular subchannels of supercritical water cooled reactor[J]. Nuclear Power Engineering, 2018, 39(3):33-39.
[32] 周涛, 李兵, 齐实, 等. 模糊贴近度方法在超临界水堆换热关系式选择中应用[J]. 核技术, 2017, 40(12):75-80. Zhou Tao, Li Bing, Qi Shi, et al. Application of fuzzy nearness method in the selection of heat transfer relationship of supercritical water reactor[J]. Nuclear Techniques, 2017, 40(12):75-80.
[33] 周涛, 李子超, 陈杰, 等. 超临界水冷堆CSR1000恒压启动特性研究[J]. 核科学与工程, 2018, 38(4):569-576. Zhou Tao, Li Zichao, Chen Jie, et al. Study on the constant pressure startup characteristics of supercritical watercooled reactor CSR1000[J]. Nuclear Science and Engineering, 2018, 38(4):569-576.
[34] 杜鑫, 邱庆刚, 丁雅倩, 等. 超临界水冷堆子通道中熵产行为数值研究[J]. 哈尔滨工程大学学报, 2018, 39(8):1290-1295. Du Xin, Qiu Qinggang, Ding Yaqian, et al. Numerical research on entropy generation in a sub-channel of SCWR[J]. Journal of Harbin Engineering University, 2018, 39(8):1290-1295.
[35] 中国核能行业协会, 中国核能行业智库丛书第一卷[M]. 北京:中国原子能出版社, 2018. China Nuclear Energy Industry Association. The first volume of the China Nuclear Energy Industry Think Tank Series[M]. Beijing:China Atomic Energy Press, 2018.
[36] Ryzhov S B, Mokhov V A, Nikitenko M P, et al. VVER-Type reactors of Russian design[M]. Cacuci D G. Handbook of Nu-clear Engineering. Boston:Springer, 2010, 2249-2320.
[37] 田湾3号机组具备商业运行条件[EB/OL].[2019-01-02]. http://news.bjx.com.cn/html/20180222/881240.shtml. Tianwan Unit 3 has commercial operating conditions[EB/OL].[2019-01-02]. http://news.bjx.com.cn/html/20180222/881240.shtml.
[38] 中俄最大核能合作项目田湾核电二期工程按期投产[EB/OL].[2019-01-02]. https://news.sina.com.cn/o/2018-12-24/doc-ihmutuee2060483.shtml. Sino-Russian largest nuclear energy cooperation project:Tianwan Nuclear Power Phase Ⅱ project put into operation on schedule[EB/OL].[2019-01-02]. https://news.sina.com.cn/o/2018-12-24/doc-ihmutuee2060483.shtml.
[39] 中广核阳江核电5号机组具备商运条件[EB/OL].[2019-01-02]. http://www.yjnp.com.cn/yjnp/c100603/2018-07/13/content_e5c8b233b1fd4af09e1a7a8a77200260.shtml. The unit 5 of CGN Yangjiang nuclear power plant has commercial operating conditions[EB/OL].[2019-01-02]. http://www.yjnp.com.cn/yjnp/c100603/2018-07/13/content_e5c8b23-3b1fd4af09e1a7a8a77200260.shtml.
[40] 全球首台AP1000机组三门核电1号也并网发电了[EB/OL].[2019-01-02]. https://www.jiemian.com/article/2273377_qq.ht-ml. The unit 1 of world's first AP1000 Sanmen nuclear power plant is also connected to the grid to generate electricity[EB/OL].[2019-01-02]. https://www.jiemian.com/article/2273377_qq.html.
[41] AP1000全球首堆三门核电1号机组具奋商运条件[EB/OL].[2019-01-02]. http://www.chinapower.com.cn/fdhyyw/201809-21/123206.html. The unit 1 of world's first AP1000 Sanmen nuclear power plant has commercial operating conditions[EB/OL].[2019-01-02]. http://www.chinapower.com.cn/fdhyyw/20180921/123206. html.
[42] 三门核电一期工程建成投产核电建设迎高峰[EB/OL].[2019-01-02]. http://news.bjx.com.cn/html/20181115/941844.shtml. The first phase of Sanmen Nuclear Power Project was completed and put into operation, and nuclear power construction ushered in a peak[EB/OL].[2019-01-02]. http://news.bjx.com.cn/html/20181115/941844.shtml.
[43] 改革开放40周年三代核电发展历程[EB/OL].[2019-01-02]. http://news.bjx.com.cn/html/20181218/949903.shtml. The 40th anniversary of reform and opening up, and the development of three generations of nuclear power[EB/OL].[2019-01-02]. http://news.bjx.com.cn/html/20181218/949903.shtml.
[44] 山东核电有限公司简介[EB/OL].[2019-01-02]. http://www.sdnpc.com/aboutus/companyinfo/index.html. The introduction of Shandong Nuclear Power Co., Ltd.[EB/OL].[2019-01-02]. http://www.sdnpc.com/aboutus/companyinfo/index.html.
[45] 海阳核电1号机组具备商运条件业内关注核电审批进度[EB/OL].[2019-01-02]. http://news.bjx.com.cn/html/2018102-4/936504.shtml. The unit 1 of Haiyang nuclear power plant has commercial operating conditions, and the nuclear power industry is concerned about the progress of nuclear power approval[EB/OL].[2019-01-02]. http://news.bjx.com.cn/html/20181024/936504. shtml.
[46] Leverenz R. The EPR-A safe and competitive solution for fu-ture energy needs[C/OL].[2018-12-31]. http://www.nss.si/proc/port2006/pdf/0409.pdf.
[47] 官宣!EPR全球首堆台山核电1号机组具备商运条件[EB/OL].[2019-01-02]. http://www.tnpjvc.com.cn/tnpjvc/c102308/2018-12/15/content_0d6de7db61794cbab2069432fa14e04c.shtml. The unit 1 of world's first EPR Taishan nuclear power plant has commercial operating conditions[EB/OL].[2019-01-02]. http://www.tnpjvc.com.cn/tnpjvc/c102308/2018-12/15/content_0d6de7db61794cbab2069432fa14e04c.shtml.
[48] 核电行业深度报告:千呼万唤始出来核电重启终落地[EB/OL].[2019-01-02]. http://news.bjx.com.cn/html/20181120/942914.shtml. In-depth report on the nuclear power industry:After a long wait, the nuclear power restarts[EB/OL].[2019-01-02]. http://news.bjx.com.cn/html/20181120/942914.shtml.
[49] 国核示范电站有限责任公司[EB/OL].[2019-01-10]. http://www.snpdp.com/page/gongsijianjie.html. National Nuclear Demonstration Power Station Co., Ltd.[EB/OL].[2019-01-10]. http://www.snpdp.com/page/gongsijianjie. html.
[50] 2018年中国核能行业十大新闻[EB/OL].[2019-01-03]. http://www.china-nea.cn/site/content/35537.html. Top Ten News of China's Nuclear Industry in 2018[EB/OL].[2019-01-03]. http://www.china-nea.cn/site/content/35537.html.
[51] Mostecak A, Bedekovic G. Metal waste management and recy-cling methods in the nuclear power plant decommissioning and dismantling process[J]. The Mining-Geology-Petroleum Engineering Bulletin, 2018, 33(1):25-33.
[52] 世界主要国家核设施退役情况概述[EB/OL].[2017-06-10]. http://www.360doc.com/content/17/0610/00/36312979_66150-2333.shtml. Overview of the decommissioning of nuclear facilities in major countries of the world[EB/OL].[2017-06-10]. http://www.360doc.com/content/17/0610/00/36312979_661502333.shtml.
[53] 石磊, 李金英. 核设施退役产业全球经验探析[J]. 能源, 2018(7):84-87. Shi Lei, Li Jinying. Analysis on the global experience of nuclear facilities decommissioning industry[J]. Energy, 2018(7):84-87.
[54] 美国新泽西州古董级核电站终于退役完成退役过程需要60年![EB/OL].[2018-09-18]. http://news.bjx.com.cn/html/20180918/928623.shtml. The antique nuclear power plant in New Jersey, USA, has finally retired, and it will take 60 years to complete the decommissioning process![EB/OL].[2018-09-18]. http://news.bjx.com.cn/html/20180918/928623.shtml.
[55] 戴定, 伍浩松. 英核退役管理局将接管镁诺克斯公司[J]. 国外核新闻, 2018(8):10. Dai Ding, Wu Haosong. The UK Nuclear Decommissioning Authority will take over Magnox[J]. Foreign Nuclear News, 2018(8):10.
[56] Snake slithers through to tackle Dragon[EB/OL].[2018-05-04]. https://www.gov.uk/government/news/snake-slithers-through-to-tackle-dragon.
[57] 伍浩松, 张焰. 法电和威立雅开展退役和废物管理合作[J]. 国外核新闻, 2018(7):26. Wu Haosong, Zhang Yan. France and Veolia carry out cooperation in decommissioning and waste management[J]. Foreign Nuclear News, 2018(7):26.
[58] 伍浩松, 张焰. 法电收购核设施退役3D模拟专业公司[J]. 国外核新闻, 2018(7):26. Wu Haosong, Zhang Yan. EDF bought a 3D simulation Co., Ltd. for the decommissioning of nuclear facilities[J]. Foreign Nuclear News, 2018(7):26.
[59] 伍浩松, 戴定. 坎杜能源获得研究堆退役合同[J]. 国外核新闻, 2018(8):20. Wu Haosong, Dai Ding. Candu Energy won the research reactor decommissioning contract[J]. Foreign Nuclear News, 2018(8):20.
[60] 伍浩松, 张焰. 瑞士米勒贝格核电厂获准退役[J]. 国外核新闻, 2018(7):15. Wu Haosong, Zhang Yan. Swiss Millerberg nuclear power plant was approved for decommissioning[J]. Foreign Nuclear News, 2018(7):15.
[61] Seo H W, Sohn W, Jo K H. Proposal for the spent nuclear fu-el management plan from the decommissioning of Kori site NPPs[J]. Annals of Nuclear Energy, 2018, 120:749-762.
[62] 韩国将在私营-公共伙伴关系下培育核退役工业[EB/OL].[2018-11-22]. http://www.zggjzs.com/xinwen/0566e43daf8544-39a50e61f8456a068f.html. South Korea will foster nuclear decommissioning industries under private-public partnerships[EB/OL].[2018-11-22]. http://www.zggjzs.com/xinwen/566e43daf854439a50e61f8456-a068f.html.
[63] 关于批准秦山核电基地7台核电机组运行许可证续证申请的通知[A/OL].[2017-12-20]. http://www.mee.gov.cn/gkml/sthjbgw/haq/201712/t20171222_428467.htm. Notice on approving the application for renewal of 7 nuclear power plant operation permits of Qinshan nuclear power plant[A/OL].[2017-12-20]. http://www.mee.gov.cn/gkml/sthjbgw/haq/201712/t20171222_428467.htm.
[64] 四川首个核退役及放废治理实验室落户动力院[EB/OL].[2017-01-03]. http://192.168.73.130/www.sohu.com/a/12328-7071_313834. Sichuan's first nuclear decommissioning and waste disposal laboratory settled in the Nuclear Power Institute of China[EB/OL].[2017-01-03]. http://192.168.73.130/www.sohu.com/a/12-3287071_313834.
[65] 胡春玫. 中国核环保产业:打造具有国际竞争力的核环保企业[EB/OL].[2018-10-09]. http://192.168.73.133/www.sohu.com/a/258463018_673510. Hu C M. China's nuclear environmental protection industry:To create an internationally competitive nuclear environmental protection enterprise[EB/OL].[2018-10-09]. http://192.16-8.73.133/www.sohu.com/a/258463018_673510.
[66] 核退役规范和技术交流会顺利举办[EB/OL].[2018-03-16]. http://www.nestec.com.cn/newsitem/278172467. The specifications and technical exchanges of nuclear decommissioning were successfully held[EB/OL].[2018-03-16]. http://www.nestec.com.cn/newsitem/278172467.
[67] 中乌两国首个核设施退役和核废料处理合资公司总部落户青岛[EB/OL].[2018-10-29]. http://news.bjx.com.cn/html/20181029/937278.shtml. China and Uzbekistan's first joint venture in the decommissioning of nuclear facilities and nuclear waste disposal settled in Qingdao[EB/OL].[2018-10-29]. http://news.bjx.com.cn/html/20181029/937278.shtml.
[68] Chen Y S. Thermal analysis for the integrated spent fuel pool of the Chinshan plant in the decommissioning process[J]. An-nals of Nuclear Energy, 2018, 119:163-174.