2018年核能科技热点回眸
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摘要
盘点了2018年核能科技重点领域所取得的重要研究与工程进展,重点介绍了第四代反应堆、核电站项目建设以及退役方面的最新状况。总体情况显示,核能仍是全球能源结构中的关键一环。随着新一代核能设施研发和核退役部署,有望进一步确保和发挥核能的关键作用。
This paper summarizes the important research and engineering progress of nuclear energy science and technology in 2018,focusing on the latest developments in Generation IV reactors,construction of nuclear power plants,and decommissioning of nuclear facilities.The state quo shows that nuclear energy is still an important part of the global energy structure.With the development of new generation of nuclear power facilities and the deployment of nuclear decommissioning,this situation is expected to be further ensured.
This paper summarizes the important research and engineering progress of nuclear energy science and technology in 2018,focusing on the latest developments in Generation IV reactors,construction of nuclear power plants,and decommissioning of nuclear facilities.The state quo shows that nuclear energy is still an important part of the global energy structure.With the development of new generation of nuclear power facilities and the deployment of nuclear decommissioning,this situation is expected to be further ensured.
引文
[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,LüLiushuai,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 Nuclear 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.html.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 future 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 recycling 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 fuel 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].Annals of Nuclear Energy,2018,119:163-174.
[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,LüLiushuai,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 Nuclear 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.html.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 future 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 recycling 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 fuel 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].Annals of Nuclear Energy,2018,119:163-174.