摘要
氚增殖包层中产氚率测量是聚变核能系统中需要研究的重要问题之一。本文开展了用于产氚率测量的碳酸锂探测片液闪样品制备方法的研究。结果表明:采用盐酸溶解碳酸锂探测片的方式,能制备成无色、透明度高且无分层的液闪样品,相比其他混酸处理,这种方法减少了寻找混酸间最佳体积比的步骤,简化了碳酸锂探测片液闪样品制备流程。对完善制备方法的研究表明:在20 m L的液闪测量瓶中,闪烁液的体积至少为10 m L以上;碳酸锂探测片刚好溶解后,盐酸用量不能超过0.2 m L(部分不超过0.4 m L)。该方法制备的液闪样品的兼容性在较长时间是稳定存在的,但淬灭程度会有较大变化,需考虑淬灭程度的变化对氚测量的影响。
[Background] The measurement of tritium production rate for tritium breeding blanket is one of the important issues that to be studied in fusion nuclear power system. [Purpose] A preparation method of liquid scintillation sample for lithium carbonate probe was developed for the measurement of tritium production rate. [Methods] & [Results] The results showed that the method of dissolution of lithium carbonate by hydrochloric acid can produce high transparency and no liquid scintillation sample layer. [Conclusion] Compared to other mixed acid treatments, this method reduces the steps for finding the optimum volume ratio of the mixed acid, and simplifying the preparation of liquid scintillation samples of lithium carbonate pellets. The study of the refining process shows that in a 20 mL liquid scintillation measuring vial, the volume of liquid scintillation fluid is at least 10 mL and the volume of hydrochloric acid should not exceed 0.2 mL for the volume of hydrochloric acid which can just dissolved the lithium carbonate pellet. The compatibility of the liquid sample prepared by this method is stable for a long time, but the degree of quenching will vary. The effect of quenching changes on tritium measurement should be taken into account.
作者
蒋兵
姚泽恩
文炜
何铁
赵光义
安力
JIANG Bing;YAO Zeen;WEN Wei;HE Tie;ZHAO Guangyi;AN Li(Institute of Nuclear Physics and Chemistry,Chinese Academy of Engineering Physics,Mianyang 621900,China;School of Nuclear Science and Technology,Lanzhou University,Lanzhou 730000,China)
出处
《核技术》
CAS
CSCD
北大核心
2018年第9期61-66,共6页
Nuclear Techniques
基金
国家磁约束核聚变能发展专项(No.2015GB108000)
高增益包层实验模块中子学性能实验研究项目(No.2015GB108006)资助~~
关键词
产氚率
碳酸锂探测片
液闪样品制备方法
兼容性
稳定性
Tritium production rate
Lithium carbonate pellet
The preparation of liquid scintillation sample
Compatibility
Stability
