紫外线杀菌辐射特性测量仪器的质量控制

O. A. Minaeva, A. V. Ragutkin, S. Anevsky, R. Minaev, Th. T. Minh, I. A. Romanova
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摘要

目的。紫外线 (UV) 杀菌辐照度测量仪器的质量控制基于对主要计量特性的研究。这些特性包括:角度和光谱灵敏度、线性范围和以辐照度单位进行的绝对校准。测量仪器的角度灵敏度偏离理想的余弦特性会严重影响误差估计。它们还可能导致测量结果失真和仪器读数的显著差异。这项工作旨在提高解决杀菌辐射辐照度计量问题的准确性。解决这一问题的有效方法是为辐射计、光谱辐射计和剂量计的角度灵敏度引入修正系数。这些数值是在测试测量仪器时根据测角仪的测量结果计算得出的。计算机模型和测量仪器的数字双胞胎发挥了重要作用,它们是基于通过软件对辐射计的计量特性进行研究的结果。这包括对测量任务进行建模。通过对杀菌紫外线辐射计灵敏度的角度依赖性进行研究,并对其他作者获得的测量结果进行分析,可以根据杀菌辐射辐照度测量仪器的角度灵敏度与标准余弦依赖性的偏差,确定角度灵敏度修正系数的值。杀菌辐射紫外线辐射计灵敏度的角度依赖性与余弦特性的偏差会导致严重低估扩展辐射器的辐照度测量结果。有效的解决方案是使用数字角度灵敏度修正系数来测量测试期间确定的杀菌辐射辐照度。在评估辐射计、光谱辐射计和杀菌辐射剂量计的质量时,如果对测量仪器的主要计量特性控制不彻底,就有可能导致杀菌辐照度测量结果出现严重错误。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Quality control of instruments for measuring the characteristics of bactericidal UV radiation
Objectives. Quality control of instruments for measuring bactericidal irradiance of ultraviolet (UV) radiation is based on studying the main metrological characteristics. These characteristics include: angular and spectral sensitivity; linearity range; and absolute calibration in irradiance units. Deviations of the angular sensitivity of measuring instruments from the ideal cosine characteristic can significantly impact error estimation. They can also lead to the distortion of measurement results and a significant difference in instrument readings. The aim of this work is to enhance accuracy in resolving metrological problems of determining irradiance of bactericidal radiation.Methods. An effective method of resolving this problem is to introduce correction coefficients for the angular sensitivity of radiometers, spectroradiometers and dosimeters. The values are calculated based on the results of measurements on the goniometer when testing measuring instruments. An important role is played by computer models and digital twins of measuring instruments based on the results of studies of the metrological characteristics of radiometers by means of software. This includes modeling the measuring task.Results. The study of angular dependence of bactericidal UV radiometer sensitivity complemented by an analysis of measurement results obtained by other authors allows determining the value of the angular sensitivity correction coefficients by the deviation of the angular sensitivity of the irradiance measuring instruments of bactericidal radiation from the standard cosine dependence.Conclusions. Deviations of the angular dependence of bactericidal radiation UV radiometer sensitivity from the cosine characteristic lead to a significant underestimation of the irradiance measurements results from extended emitters. An effective solution is the use of digital angular sensitivity correction coefficients to measure the irradiance of bactericidal radiation determined during tests. When assessing the quality of radiometers, spectroradiometers and dosimeters for bactericidal radiation, incomplete control of the main metrological characteristics of the measuring instruments creates risks of serious errors in the measurement results of bactericidal irradiance.
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