Bilateral comparison of primary reference materials (PRMs) containing methanol, ethanol and acetone in nitrogen

IF 0.8 4区 工程技术 Q4 CHEMISTRY, ANALYTICAL Accreditation and Quality Assurance Pub Date : 2022-07-15 DOI:10.1007/s00769-022-01513-y
D. R. Worton, S. Moreno, P. J. Brewer, J. Li, A. Baldan, A. M. H. van der Veen
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引用次数: 3

Abstract

A range of oxygenated volatile organic compounds (OVOCs) are present in the atmosphere as a result of direct emissions and as products of atmospheric oxidation. Long-term measurements are important to understand changes to these emission sources and atmospheric oxidation processes. Accurate and stable traceable gaseous primary reference materials are needed to underpin rigorous quality assurance and quality control at monitoring stations such as those organised by the World Meteorological Organization Global Atmosphere Watch (WMO-GAW) programme. The development of a capability for providing traceable primary reference materials (PRMs) of OVOCs is of paramount importance due to the increasing prevalence of these compounds in the urban atmosphere and also because there is currently no Central Calibration Laboratory (CCL) for these components within the WMO-GAW programme. This EURAMET bilateral comparison demonstrates the measurement compatibility (≤ 3%) for three OVOCs (methanol, ethanol and acetone) at nominally 5 µmol mol−1 between two National Metrology Institutes: the National Physical Laboratory (NPL), UK and the Van Swinden Laboratorium (VSL), the Netherlands. The comparison shows that a gravimetric method for value assignment is applicable to acetone but that a more complicated procedure must be employed to value assign methanol and ethanol due to corrections for adsorption effects, which can be as large as 10 % of the nominal value. This work demonstrates the importance of making appropriate corrections to ensure the accuracy of these reference materials. NPL and VSL used different approaches to make these corrections providing confidence and independent verification. This work supports new calibration and measurement capabilities for methanol, ethanol and acetone in the range of 1 μmol mol−1 –10 μmol mol−1 with expanded uncertainties of 6.9 % (3 %), 7.3 % (3 %) and 1.7 % (2 %) for NPL (VSL), respectively, to be realized in the key comparison database and supports the development of the required traceability infrastructure to underpin long-term global measurements of these OVOCs.

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含甲醇、乙醇和丙酮的一级标准物质(PRMs)的双边比较
由于直接排放和大气氧化的产物,大气中存在一系列含氧挥发性有机化合物(OVOCs)。长期测量对于了解这些排放源和大气氧化过程的变化非常重要。需要准确和稳定的可追溯气体主要参考物质,以支持诸如世界气象组织全球大气监视(WMO-GAW)计划所组织的监测站严格的质量保证和质量控制。由于这些化合物在城市大气中越来越普遍,而且由于WMO-GAW计划中目前没有针对这些成分的中央校准实验室,因此发展提供可追溯的挥发性有机化合物主要参考物质(PRMs)的能力至关重要。EURAMET双边比较显示了两个国家计量机构(英国国家物理实验室(NPL)和荷兰Van Swinden实验室(VSL))在名义上5µmol mol−1下对三种ovoc(甲醇,乙醇和丙酮)的测量兼容性(≤3%)。比较表明,用重量法定值适用于丙酮,但由于吸附效应的校正,必须采用更复杂的程序来定值甲醇和乙醇,其校正可能高达标称值的10%。这项工作证明了为确保这些参考材料的准确性而进行适当修正的重要性。NPL和VSL使用不同的方法来进行这些修正,提供了信心和独立的验证。这项工作支持在关键比较数据库中实现甲醇、乙醇和丙酮在1 μmol mol−1 -10 μmol mol−1范围内的新的校准和测量能力,NPL (VSL)的不确定度分别扩大到6.9%(3%)、7.3%(3%)和1.7%(2%),并支持开发所需的可追溯性基础设施,以支持这些OVOCs的长期全球测量。
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来源期刊
Accreditation and Quality Assurance
Accreditation and Quality Assurance 工程技术-分析化学
CiteScore
1.80
自引率
22.20%
发文量
39
审稿时长
6-12 weeks
期刊介绍: Accreditation and Quality Assurance has established itself as the leading information and discussion forum for all aspects relevant to quality, transparency and reliability of measurement results in chemical and biological sciences. The journal serves the information needs of researchers, practitioners and decision makers dealing with quality assurance and quality management, including the development and application of metrological principles and concepts such as traceability or measurement uncertainty in the following fields: environment, nutrition, consumer protection, geology, metallurgy, pharmacy, forensics, clinical chemistry and laboratory medicine, and microbiology.
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