Current status of traceability of radioactive inert gas (Kr、Xe) monitoring system in china
WANG Zilu1, WANG Wei2, TUO Fei1, ZHANG Ming3, LIANG Juncheng3, ZHOU Qiang1
1. National Institute for Radiological Protection, Chinese Center for Disease Control and Prevention, Beijing 100088 China; 2. Changbai Korean Autonomous County Center for Disease Control and Prevention; 3. National Institute of Metrology
王自路, 王伟, 拓飞, 张明, 梁珺成, 周强. 我国放射性惰性气体Kr、Xe监测体系的溯源现状[J]. 中国辐射卫生, 2019, 28(6): 730-733.
WANG Zilu, WANG Wei, TUO Fei, ZHANG Ming, LIANG Juncheng, ZHOU Qiang. Current status of traceability of radioactive inert gas (Kr、Xe) monitoring system in china. , 2019, 28(6): 730-733.
[1] 袁之伦,李宏宇,唐丽丽,等.我国核电厂气态流出物中惰性气体监测现状[J].同位素, 2013,26(4):244-248. [2] 李厚文,王斌.秦山三期重水堆核电站流出物惰性气体133Xe和85Kr研究及监测改进[J].辐射防护,2014,34(4):193-198,213. [3] Pakhomov S, Dubasov Y. Development of Atmospheric Air 85Kr Monitoring Methodology on the Territory of the USSR[C]/Egu General Assembly Conference. EGU General Assembly Conference Abstracts, 2014. [4] 孟庆华,马永忠,李慧娟,等.2016年北京地区大气中放射性惰性气体133Xe的监测与分析[J].中国辐射卫生,2017,26(2):190-192. [5] 张利兴.禁核试核查中放射性惰性气体的监测[J].核技术,2004,27(10):770-777. [6] Ringbom A,Axelsson A,Aldener M,et al.Radioxenon detections in the CTBT international monitoring system likely related to the announced nuclear test in North Korea on February 12,2013[J].J Environ Radioact, 2014,128:47-63. [7] 李付平,刘辉,刘衡,等.正常运行工况下核电厂气态流出物中85Kr与133Xe的关系[J].辐射防护通讯,2015,35(1):28-32. [8] 袁之伦,赵善桂.关于核设施流出物监测和环境监测中存在问题的探讨[J].核安全,2010,9(3):42-45,58. [9] 李一秋,杨翠萍,张保国,等.放射性惰性气体实时测量装置的设计与模拟研究[J].核技术,2019,42(4):48-52. [10] 陈占营,黑东炜,王建龙.CTBT大气放射性氙监测技术进展[J].现代应用物理,2018,9(3):12-22. [11] 黄彦君,郭贵银,张兵,等.核电厂排放的85Kr的分析方法及剂量评估[J].辐射防护,2017,37(1):73-79. [12] 贾怀茂,王世联,李奇,等.CTBT放射性惰性气体氙同位素活度测量方法[C]//第二届全国核技术及应用研究学术研讨会论文集.绵阳,2009:555-559. [13] Rodrigues M,Lépy M C,Cassette P,et al.Standardization of xenon-127 and measurement of photon emission intensities[J].Appl Radiat Isot, 2014,87:342-347. [14] 翁守清.4π内气体源的绝对测量[J].核电子学与探测技术,1998,(1):34-37. [15] Yu X, Zhang M, Chai L, et al. Simulation Studies on the Correction Methods for the Absolute Measurement of Activity Gas with Internal Gas Proportional Counter[J]. Acta Metrologica Sinica, 2016, 37(z1). 2020-03-2016:14:44:951:全文内容:DOI:10.3969/j.issn.1000-1158.2016.z1.15. [16] Mori C,Wu Y,Agemura T,et al.Evaluation of counting loss and its correction for small pulses in internal counting with proportional counters[J].Appl Radiat Isot, 1998,49(9/10/11):1107-1111. [17] Makepeace J L,Day F E,Günther E,et al.Intercomparison of measurement of tritiated water by internal proportional gas counting[J].Nucl Instruments Methods Phys Res Sect A:Accel Spectrometers Detect Assoc Equip, 1996,369(2/3):458-462. [18] Marouli M,Dean J C J,Sephton J P,et al.Standardisation of positron-emitters in gas with the NPL primary gas counting system[J].Appl Radiat Isot, 2010,68(7/8):1378-1382. [19] Phillips H C,Johansson L C,Sephton J P.Standardisation of 85Kr[J].Appl Radiat Isot, 2010,68(7/8):1335-1339. [20] 龙河清.内充气正比计数器氚的绝对测量[J].计量学报,1989(2):144-150. [21] 周友朴,王斌,阙毅,等.放射性气体活度绝对测量[J].原子能科学技术,1994,(3):194-199. [22] 李奇,王世联,樊元庆,等.133Xe活度浓度的绝对测量[J].原子能科学技术,2011,45(4):385-388. [23] 张曦.基于正比计数管的222Rn活度绝对测量方法[J].中国原子能科学研究院年报,2015:221.