| [1] | 孙小兵. 世界能源新格局下中国的能源安全问题 [J]. 南方能源建设,2014,1(1):16-24. SUN X B. Discussion of China’s energy security in the new world energy pattern [J]. Southern Energy Construction,2014,1(1):16-24. |
| [2] | 郑文棠,程小久. 我国低中放废物处置相关问题研究[J]. 南方能源建设,2014,1(1):75-82. ZHENG W T,CHENG X J. Research on related problems of low and intermediate level radioactive waste disposal in China [J].Southern Energy Construction,2014,1(1):75-82. |
| [3] | 邓宏伟. 核电厂二回路管道应对流动加速腐蚀机理研究 [J].南方能源建设,2015,2(1):51-54+61. DENG H W. Research on flow accelerated corrosion discussion for secondary loop piping of nuclear power plant [J]. Southern Energy Construction,2015,2(1):51-54+61. |
| [4] | 杨 格哈尔,费克 菲利普,卢 博米尔,等. 加速器驱动次临界实验台架铅铋散裂靶设计 [J]. 科技与信息,2003(21):321-333. GOHAR Y,FINCK P J,KRAJTL L,et al. Lead-bismuth target design for the subcritical multiplier(SCM) of the accelerator driven test facility(ADTF) [J]. Office of Scientific&Technical Information,2003(21):321-333. |
| [5] | CHO C H,SONG T Y,TAK N I. Numerical design of a 20 MW lead–bismuth spallation target for an accelerator-driven system [J].Nuclear Engineering and Design,2004,229(2-3):317-327. |
| [6] | Nuclear Energy Agency. Handbook on lead-bismuth eutectic alloy and lead property,materials compatibility,thermal-hydraulics and technologies [R]. U.S.A.:Nuclear Energy Agency,2007:85-93. |
| [7] | 刘捷,范俊辉,卢文强. 质子束能量对ADS无窗散裂靶稳态热输运的影响 [J]. 工程热物理学报,2015,36(11):2390-2394. LIU J,FAN J H,LU W Q. The impact of proton beam energy on steady-state heat transfer in the ADS windowless spallation target [J]. Journal of Engineering Thermophysice,2015,36(11):2390-2394. |
| [8] | 周琦,陈亮,刘洋,等. ADS启明星Ⅱ号散裂靶样品反应性价值测量实验 [J]. 中国原子能科学研究院年报,2017,20(00):109-110. ZHOU Q,CHEN L,LIU Y,et al. Reactivity value measurement experiment of ADS Venus II spallation target sample [J]. Annual Report of China Institute of Atomic Energy,2017,20(00):109-110. |
| [9] | 许晓伟,张雪荧,强成文,等. 基于水工质的有窗散裂靶流场分析及实验测量 [J]. 原子能科学技术,2016,50(1):86-91. XU X W,ZHANG X Y,QIANG C W,et al. Flow field analysis and experimental measurement of window spallation target based on water [J]. Atomic Energy Science and Technology,2016,50(1):86-91. |
| [10] | 强成文,赵强,李龙,等. ADS无窗散裂靶件水模拟实验研究 [J]. 原子核物理评论,2015,32(4):490-495. QIANG C W,ZHAO Q,LI L,et al. Experimental study on water simulation of ADS windowless spallation target [J].Nuclear Physics Review,2015,32(4):490-495. |
| [11] | 李晨曦,文彦,郭凯伦,等. 基于FOCUS程序的ADS颗粒流靶熔化事故分析 [J]. 原子能科学技术,2018,52(8):1431-1437. LI C X,WEN Y,GUO K L,et al. Analysis of ADS granular target melting accident based on FOCUS code [J]. Atomic Energy Science and Technology,2018,52(8):1431-1437. |
| [12] | 彭天骥,顾龙,王大伟,等. 中国加速器驱动嬗变研究装置次临界反应堆概念设计 [J]. 原子能科学与技术,2017,51(12):2235-2241. PENG T J,GU L,WANG D W,et al. Conceptual design of subcritical reactor for China initiative accelerator driven system [J].Atomic Energy Science and Technology,2017,51(12):2235-2241. |
| [13] | 陶科伟,刘伟明,张建荣,等. 紧凑型散裂靶靶区热工水力分析 [J]. 西北师范大学学报(自然科学版),2017,53(4):51-55. TAO K W,LIU W M,ZHANG J R,et al. Thermal-hydraulic analysis related to the target region of compact spallation target [J].Journal of Northwest Normal University(Natural Science),2017,53(4):51-55. |
| [14] | 陈康,杨永伟,范德亮,等. CIADS铅铋散裂靶热工水力研究 [J]. 核工程与设计,2016,305(8):672-677. CHEN K,YANG Y W,FAN D L,et al. Thermal hydraulic studies of lead–bismuth eutectic spallation target of CIADS [J].Nuclear Engineering and Design,2016,305(8):672-677. |
| [15] | 程旭,塔克. 液态铅铋合金在圆管内紊流换热的研究 [J]. 核工程与设计,2006,236(4):385-393. CHENG X,Nam-il Tak. Investigation on turbulent heat transfer to lead–bismuth eutectic flows in circular tubes for nuclear applications [J]. Nuclear Engineering and Design,2006,236(4):385-393. |