{"title":"确保气体混合物成分标准物质的计量可追溯性","authors":"A. V. Kolobova","doi":"10.32446/0368-1025it.2024-1-61-66","DOIUrl":null,"url":null,"abstract":"The modern concept of metrological assurance for gas analytical measuring instruments with the use of reference materials of gas mixtures composition in cylinders under pressure is presented. The reference materials of gas mixtures composition of approved type in cylinders under pressure, which are the most often means of mole fraction and mass concentration units transfer in gas analytical measurements, are considered. The certified value in these reference materials is the content of the target component (or components) in the gas medium (analytical matrix). All the produced reference materials of gas mixtures composition, which are used for ensuring the uniformity of measurements are traceable to the State primary standard of units of mole fraction, mass fraction and mass concentration of components in gas and gas condensate media GET 154-2019, which characteristics are confirmed on the international level by the results of about 90 international comparisons. The paper presents a methodology for ensuring metrological traceability of reference materials of gas mixtures composition using GET 154-2019, taking into account the constantly increasing park of gas analytical instruments and the emergence of new measuring tasks in various fields of industry and environmental control. Currently, a park of secondary and working standards has been created at enterprises producing reference materials of gas mixtures composition, and their traceability to GET 154-2019 has been implemented according to the state verification scheme. The paper presents the results of international comparisons with participation of GET 154-2019, confirming the comparability of the obtained and reference value of the target component content in reference gas mixtures at the international level. The variety and large number of relevant gas analytical measurement tasks in various industries and the social sphere determines the need to choose priority areas for improving the existing reference base, including the structure of the GET 154 Standard and the nomenclature of reference gas mixtures. The strategic program of the Gas Analysis working group of the Consultative Committee of the Amount of Substance of the International Bureau of Weights and Measures developed for the period up to 2030 has been analysed and a review of the long-term tasks of gas analytical measurements is given. The currently existing GET 154-2019 Standard of the latest generation provides reproduction, storage and transfer of the components’ mole fraction units in gas and gas condensate media in the range from 1.5·10 –8 to 99.99999 %, and mass concentration units in the range from 1.0·10–6 to 2.0·105 mg/m3, what is confirmed by the results of participation in international comparisons and published CMC positions in the International database of calibration and measurement capabilities (about 400 CMCs positions).","PeriodicalId":14651,"journal":{"name":"Izmeritel`naya Tekhnika","volume":"31 13","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-03-08","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Ensuring metrological traceability of reference materials of gas mixtures composition\",\"authors\":\"A. V. 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All the produced reference materials of gas mixtures composition, which are used for ensuring the uniformity of measurements are traceable to the State primary standard of units of mole fraction, mass fraction and mass concentration of components in gas and gas condensate media GET 154-2019, which characteristics are confirmed on the international level by the results of about 90 international comparisons. The paper presents a methodology for ensuring metrological traceability of reference materials of gas mixtures composition using GET 154-2019, taking into account the constantly increasing park of gas analytical instruments and the emergence of new measuring tasks in various fields of industry and environmental control. Currently, a park of secondary and working standards has been created at enterprises producing reference materials of gas mixtures composition, and their traceability to GET 154-2019 has been implemented according to the state verification scheme. The paper presents the results of international comparisons with participation of GET 154-2019, confirming the comparability of the obtained and reference value of the target component content in reference gas mixtures at the international level. The variety and large number of relevant gas analytical measurement tasks in various industries and the social sphere determines the need to choose priority areas for improving the existing reference base, including the structure of the GET 154 Standard and the nomenclature of reference gas mixtures. The strategic program of the Gas Analysis working group of the Consultative Committee of the Amount of Substance of the International Bureau of Weights and Measures developed for the period up to 2030 has been analysed and a review of the long-term tasks of gas analytical measurements is given. 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引用次数: 0
摘要
本文介绍了使用钢瓶加压气体混合物成分标准物质为气体分析测量仪器提供计量保证的现代理念。本文考虑了气瓶中经批准的气体混合物成分标准物质,这些标准物质是气体分析测量中最常用的分子分数和质量浓度单位传递手段。这些标准物质的认证值是气体介质(分析基质)中目标成分的含量。所有用于确保测量均匀性的气体混合物成分标准物质都可追溯到气体和气体凝析介质 GET 154-2019 中各组分的摩尔分数、质量分数和质量浓度单位的国家主要标准。本文介绍了使用 GET 154-2019 确保气体混合物成分标准物质计量溯源性的方法,同时考虑到气体分析仪器园区的不断扩大以及工业和环境控制各领域新测量任务的出现。目前,已在生产混合气体成分标准物质的企业中建立了二级标准和工作标准园,并根据国家验证计划实现了这些标准物质与 GET 154-2019 的溯源。本文介绍了参与 GET 154-2019 国际比对的结果,证实所获得的参考混合气体中目标成分含量与参考值在国际上具有可比性。各行各业和社会领域的相关气体分析测量任务种类繁多,数量巨大,这决定了需要选择优先领域来改进现有的参考基础,包括 GET 154 标准的结构和参考气体混合物的命名。对国际计量局物质数量咨询委员会气体分析工作组制定的 2030 年之前的战略计划进行了分析,并对气体分析测量的长期任务进行了回顾。现行的最新一代 GET 154-2019 标准规定了气体和气体冷凝物介质中 1.5-10 -8 至 99.99999 % 范围内的组分摩尔分数单位和 1.0-10-6 至 2.0-105 mg/m3 范围内的质量浓度单位的再现、存储和传输,这一点在参与国际比对的结果以及校准和测量能力国际数据库(约 400 个 CMC 位置)中公布的 CMC 位置中得到了证实。
Ensuring metrological traceability of reference materials of gas mixtures composition
The modern concept of metrological assurance for gas analytical measuring instruments with the use of reference materials of gas mixtures composition in cylinders under pressure is presented. The reference materials of gas mixtures composition of approved type in cylinders under pressure, which are the most often means of mole fraction and mass concentration units transfer in gas analytical measurements, are considered. The certified value in these reference materials is the content of the target component (or components) in the gas medium (analytical matrix). All the produced reference materials of gas mixtures composition, which are used for ensuring the uniformity of measurements are traceable to the State primary standard of units of mole fraction, mass fraction and mass concentration of components in gas and gas condensate media GET 154-2019, which characteristics are confirmed on the international level by the results of about 90 international comparisons. The paper presents a methodology for ensuring metrological traceability of reference materials of gas mixtures composition using GET 154-2019, taking into account the constantly increasing park of gas analytical instruments and the emergence of new measuring tasks in various fields of industry and environmental control. Currently, a park of secondary and working standards has been created at enterprises producing reference materials of gas mixtures composition, and their traceability to GET 154-2019 has been implemented according to the state verification scheme. The paper presents the results of international comparisons with participation of GET 154-2019, confirming the comparability of the obtained and reference value of the target component content in reference gas mixtures at the international level. The variety and large number of relevant gas analytical measurement tasks in various industries and the social sphere determines the need to choose priority areas for improving the existing reference base, including the structure of the GET 154 Standard and the nomenclature of reference gas mixtures. The strategic program of the Gas Analysis working group of the Consultative Committee of the Amount of Substance of the International Bureau of Weights and Measures developed for the period up to 2030 has been analysed and a review of the long-term tasks of gas analytical measurements is given. The currently existing GET 154-2019 Standard of the latest generation provides reproduction, storage and transfer of the components’ mole fraction units in gas and gas condensate media in the range from 1.5·10 –8 to 99.99999 %, and mass concentration units in the range from 1.0·10–6 to 2.0·105 mg/m3, what is confirmed by the results of participation in international comparisons and published CMC positions in the International database of calibration and measurement capabilities (about 400 CMCs positions).