环境辐射监测用热释光剂量测定系统的质量控制措施

中国辐射卫生 Pub Date : 2021-08-01 DOI:10.13491/J.ISSN.1004-714X.2021.04.014

Yang Li, Wang Lijiao, Shao Minggang, Kong Fanfan, Wang Zhongwen

{"title":"环境辐射监测用热释光剂量测定系统的质量控制措施","authors":"Yang Li, Wang Lijiao, Shao Minggang, Kong Fanfan, Wang Zhongwen","doi":"10.13491/J.ISSN.1004-714X.2021.04.014","DOIUrl":null,"url":null,"abstract":"Objective To discuss the quality control measures of the thermoluminescent dosimetry system\n and to verify its propriety of when used in environmental radiation monitoring.\n Methods The quality control measures included the stability test, the dispersibility screening\n and the uncertainty evaluation of measurement results of the TLD reader and TLD detector,\n in addition, the environmental radiation accumulated dose monitoring results obtained\n by the high pressure ionization chamber were compared with those by the thermoluminescent\n dosimetry system.\n Results The variation range of TLD reader’s light source coefficient is within 0.070~0.073\n during the preheating and measuring process, which meets the requirements of stability;\n The χ\n 2 value of the TLD detector is 2.088, which obeys the normal distribution; The thermoluminescent\n dosimetry system’s nonlinear response, coefficient of variation and energy response\n meet the measurement requirements; There is a deviation of −6.58% the largest between\n the cumulative dose obtained by TLD and the high pressure ionization chamber.\n Conclusion The quality control measures discussed in this paper can be used as a reference for\n similar thermoluminescent dosimetry system. Our system has passed all the tests and\n can meet the environmental radiation cumulative dose monitoring requirements.\n 摘要：目的探讨热释光测量系统的质量控制方法, 验证热释光测量系统能否准确有效的用于环境辐射水平监测。\n 方法采取的环境辐射监测用热释光测量系统质量控制方法包括热释光测量系统的稳定性检验、热释光探测器的分散性筛选、测量结果不确定度评定, 并与高气压电离室测量方法进行对比。\n 结果读出器预热及测读过程中光源系数变化范围在 0.070~0.073, 稳定性符合使用要求; 热释光探测器的 χ\n 2 值为 2.088, 服从正态分布;热释光测量系统满足非线性响应、变异系数和能量响应的计量要求; 热释光累积剂量测量结果与高气压电离室相比偏差最大 −6.58%。\n 结论本实验室采取的质控措施可作为同类热释光测量系统的质控措施的参考;本实验室的热释光测量系统通过了各项检验, 满足环境辐射累积剂量监测的使用要求。","PeriodicalId":58844,"journal":{"name":"中国辐射卫生","volume":" ","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2021-08-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Quality control measures of thermoluminescent dosimetry system used in environmental radiation monitoring\",\"authors\":\"Yang Li, Wang Lijiao, Shao Minggang, Kong Fanfan, Wang Zhongwen\",\"doi\":\"10.13491/J.ISSN.1004-714X.2021.04.014\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Objective To discuss the quality control measures of the thermoluminescent dosimetry system\\n and to verify its propriety of when used in environmental radiation monitoring.\\n Methods The quality control measures included the stability test, the dispersibility screening\\n and the uncertainty evaluation of measurement results of the TLD reader and TLD detector,\\n in addition, the environmental radiation accumulated dose monitoring results obtained\\n by the high pressure ionization chamber were compared with those by the thermoluminescent\\n dosimetry system.\\n Results The variation range of TLD reader’s light source coefficient is within 0.070~0.073\\n during the preheating and measuring process, which meets the requirements of stability;\\n The χ\\n 2 value of the TLD detector is 2.088, which obeys the normal distribution; The thermoluminescent\\n dosimetry system’s nonlinear response, coefficient of variation and energy response\\n meet the measurement requirements; There is a deviation of −6.58% the largest between\\n the cumulative dose obtained by TLD and the high pressure ionization chamber.\\n Conclusion The quality control measures discussed in this paper can be used as a reference for\\n similar thermoluminescent dosimetry system. Our system has passed all the tests and\\n can meet the environmental radiation cumulative dose monitoring requirements.\\n 摘要：目的探讨热释光测量系统的质量控制方法, 验证热释光测量系统能否准确有效的用于环境辐射水平监测。\\n 方法采取的环境辐射监测用热释光测量系统质量控制方法包括热释光测量系统的稳定性检验、热释光探测器的分散性筛选、测量结果不确定度评定, 并与高气压电离室测量方法进行对比。\\n 结果读出器预热及测读过程中光源系数变化范围在 0.070~0.073, 稳定性符合使用要求; 热释光探测器的 χ\\n 2 值为 2.088, 服从正态分布;热释光测量系统满足非线性响应、变异系数和能量响应的计量要求; 热释光累积剂量测量结果与高气压电离室相比偏差最大 −6.58%。\\n 结论本实验室采取的质控措施可作为同类热释光测量系统的质控措施的参考;本实验室的热释光测量系统通过了各项检验, 满足环境辐射累积剂量监测的使用要求。\",\"PeriodicalId\":58844,\"journal\":{\"name\":\"中国辐射卫生\",\"volume\":\" \",\"pages\":\"\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2021-08-01\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"中国辐射卫生\",\"FirstCategoryId\":\"1087\",\"ListUrlMain\":\"https://doi.org/10.13491/J.ISSN.1004-714X.2021.04.014\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"中国辐射卫生","FirstCategoryId":"1087","ListUrlMain":"https://doi.org/10.13491/J.ISSN.1004-714X.2021.04.014","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

摘要

Objective To discuss the quality control measures of the thermoluminescent dosimetry system and to verify its priority of when used in environmental radiation monitoring Methods The quality control measures include the stability test, the stability screening and the uncertainty evaluation of measurement results of the TLD reader and TLD detector, in addition, the environmental radiation accumulated do monitoring results observed by the high pressure ionization chamber were compared with those by the thermoluminescent dosimetry system The variation range of TLD reader's light source coefficient is within 0.070~0.073 during the preheating and measuring process, which meets the requirements of stability; The χ 2 values of the TLD detector is 2.088, which objects the normal distribution; The thermoluminescence dose dose system's non-linear response, coefficient of variation and energy response meet the measurement requirements; There is a deviation of − 6.58% of the largest between the cumulative dose observed by TLD and the high pressure ionization chamber Conclusion The quality control measures discussed in this paper can be used as a reference for similar thermoluminescent dosmetry system Our system has passed all the tests and can meet the environmental radiation cumulative dose monitoring requirements Abstract: Objective: To explore the quality control methods of thermoluminescence measurement systems and verify whether the thermoluminescence measurement system can be accurately and effectively used for monitoring environmental radiation levels. The quality control methods adopted for the environmental radiation monitoring using the thermoluminescence measurement system include stability testing of the thermoluminescence measurement system, dispersion screening of the thermoluminescence detector, evaluation of measurement uncertainty, and comparison with the high-pressure ionization chamber measurement method. The variation range of the light source coefficient during the preheating and reading process of the result reader is 0.070~0.073, which meets the stability requirements for use; Thermoluminescence detector χ The 2-value is 2.088, which follows a normal distribution; The thermoluminescence measurement system meets the metrological requirements of nonlinear response, coefficient of variation, and energy response; The maximum deviation between the cumulative dose measurement results of thermoluminescence and the high-pressure ionization chamber is -6.58%. Conclusion: The quality control measures taken by our laboratory can serve as a reference for the quality control measures of similar thermoluminescence measurement systems; The thermoluminescence measurement system in our laboratory has passed various tests and meets the requirements for monitoring the cumulative dose of environmental radiation.

本文章由计算机程序翻译，如有差异，请以英文原文为准。

查看原文本刊更多论文

Quality control measures of thermoluminescent dosimetry system used in environmental radiation monitoring

Objective To discuss the quality control measures of the thermoluminescent dosimetry system and to verify its propriety of when used in environmental radiation monitoring. Methods The quality control measures included the stability test, the dispersibility screening and the uncertainty evaluation of measurement results of the TLD reader and TLD detector, in addition, the environmental radiation accumulated dose monitoring results obtained by the high pressure ionization chamber were compared with those by the thermoluminescent dosimetry system. Results The variation range of TLD reader’s light source coefficient is within 0.070~0.073 during the preheating and measuring process, which meets the requirements of stability; The χ 2 value of the TLD detector is 2.088, which obeys the normal distribution; The thermoluminescent dosimetry system’s nonlinear response, coefficient of variation and energy response meet the measurement requirements; There is a deviation of −6.58% the largest between the cumulative dose obtained by TLD and the high pressure ionization chamber. Conclusion The quality control measures discussed in this paper can be used as a reference for similar thermoluminescent dosimetry system. Our system has passed all the tests and can meet the environmental radiation cumulative dose monitoring requirements. 摘要：目的探讨热释光测量系统的质量控制方法, 验证热释光测量系统能否准确有效的用于环境辐射水平监测。方法采取的环境辐射监测用热释光测量系统质量控制方法包括热释光测量系统的稳定性检验、热释光探测器的分散性筛选、测量结果不确定度评定, 并与高气压电离室测量方法进行对比。结果读出器预热及测读过程中光源系数变化范围在 0.070~0.073, 稳定性符合使用要求; 热释光探测器的 χ 2 值为 2.088, 服从正态分布;热释光测量系统满足非线性响应、变异系数和能量响应的计量要求; 热释光累积剂量测量结果与高气压电离室相比偏差最大 −6.58%。结论本实验室采取的质控措施可作为同类热释光测量系统的质控措施的参考;本实验室的热释光测量系统通过了各项检验, 满足环境辐射累积剂量监测的使用要求。

求助全文

通过发布文献求助，成功后即可免费获取论文全文。去求助

来源期刊

中国辐射卫生

CiteScore

0.80

自引率

0.00%

发文量

7142

期刊介绍： Chinese Journal of Radiological Health is one of the Source Journals for Chinese Scientific and Technical Papers and Citations and belongs to the series published by Chinese Preventive Medicine Association (CPMA). It is a national academic journal supervised by National Health Commission of the People’s Republic of China and co-sponsored by Institute of Radiation Medicine, Shandong Academy of Medical Sciences and CPMA, and is a professional academic journal publishing research findings and management experience in the field of radiological health, issued to the public in China and abroad. Under the guidance of the Communist Party of China and the national press and publication policies, the Journal actively publicizes the guidelines and policies of the Party and the state on health work, promotes the implementation of relevant laws, regulations and standards, and timely reports new achievements, new information, new methods and new products in the specialty, with the aim of organizing and promoting the academic communication of radiological health in China and improving the academic level of the specialty, and for the purpose of protecting the health of radiation workers and the public while promoting the extensive use of radioisotopes and radiation devices in the national economy. The main columns include Original Articles, Expert Comments, Experience Exchange, Standards and Guidelines, and Review Articles.