用于科特迪瓦工作人员监测的Harshaw 6600 Plus系统的剂量测定性能和全球不确定度评估

Omer Kouakou, G. A. Monnehan, Gogon B. D. L. Huberson
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引用次数: 2

摘要

这项工作的目的是检查制造商所述的TLD-100的剂量学性能以及辐射防护的技术标准。绩效审核的目的是评估TLD灵敏度、可重复性和再现性、线性度、能量依赖性、角度依赖性和褪色的不均匀性。所有测试均在制造商推荐的环境温度和相对湿度条件下进行。我们通过校准Harshaw 6600 Plus开始研究,并检查其性能。TLD-100性能验证结果均可接受,符合制造商的宣传值和辐射防护技术标准。然而,我们评估的TLD-100的性能可能存在一些局限性;这些限值是不确定度的来源,在本工作中,通过简单公式评估Hp(10)剂量在不确定度范围9.45%至15.80%的总体不确定度,考虑了这些限值。TLD-100个人剂量计和6600 Plus阅读器系统表明,总体不确定度Hp(10)的计算值远低于个人剂量测定服务建议的21%至42%的允许值。所获得的数据鼓励使用该系统对电离辐射下工作人员的外部暴露进行常规评估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluation of Dosimetric Performance and Global Uncertainty of the Harshaw 6600 Plus System Used to Staff Monitoring in Côte d’Ivoire
The objective of this work is to check the dosimetric performances of the TLD-100 as stated by the manufacturer as well as the technical standards of radiation protection. The purpose of the performance audit is to assess the inhomogeneity of TLD sensitivity, repeatability and reproducibility, linearity, energy dependence, angular dependence, and fading. All tests were performed under the conditions of ambient temperature and relative humidity recommended by the manufacturer. We began the study by calibrating the Harshaw 6600 Plus, and checking its performance. The TLD-100 performance verification results were all acceptable and in accordance with the manufacturer’s advertised values and the radiation protection technical standards. However the performance of the TLD-100 that we have evaluated may have some limitations; these limits, which are sources of uncertainty, have been taken into account in this work by evaluating the overall uncertainty of the Hp (10) dose in the uncertainty range 9.45% to 15.80% by simple formulas. The TLD-100 personal dosimeters and the 6600 Plus reader system indicate that the calculated values of the overall uncertainty Hp (10) are well below the allowable values of 21% to 42% suggested for personal dosimetry services. The obtained data encourage the use of the system for the routine evaluation of the external exposure of workers under ionizing radiation in our laboratory.
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