一种利用同轴锗探测器对不同大气滤波器几何形状进行效率校准的新方法。

IF 2.9 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES
A. Barba-Lobo, J. P. Bolívar
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引用次数: 1

摘要

研究大气气溶胶中存在的不同污染物,如微量元素和放射性核素,对于评估空气质量至关重要。为了分析颗粒物(PM),通常使用不同尺寸和几何形状的大气过滤器(矩形、圆形、开槽和方形过滤器)。关于大气气溶胶中存在的污染物,由于放射性核素的多种应用,例如在环境辐射控制中或作为大气过程的示踪剂,通常会对其进行分析。因此,本研究旨在开发一种新的通用方法来校准高效同轴锗探测器,通过伽马射线光谱法正确确定几种过滤器类型的PM中存在的放射性核素。为此,选择了仅含有天然放射性核素(238U系列、232Th系列和40K)的颗粒认证参考材料(CRM)。选择了几种颗粒固体CRM,使我们能够再现相同的PM沉积几何形状,并确保添加的CRM的均匀性。这些是与使用液体CRM的典型方法相比的主要优点。此外,对于表面相对较大的过滤器,将其切成几块,并将一块放在另一块的顶部,从而获得与沉积在过滤器上的PM相同的几何形状。然后,获得每种感兴趣能量(Eγ)的实验全能量峰值效率(FEPE),并将其与Eγ进行拟合,找到每种滤波器类型的通用FEPE函数。最后,通过在能力测试中使用不同类型的过滤器,对天然和人工放射性核素(46至1332keV)验证了该方法,获得了|zscore|补充信息:在线版本包含补充材料,可在10.1007/s11869-023-01336-x上获得。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

A new efficiency calibration methodology for different atmospheric filter geometries by using coaxial Ge detectors

A new efficiency calibration methodology for different atmospheric filter geometries by using coaxial Ge detectors

A new efficiency calibration methodology for different atmospheric filter geometries by using coaxial Ge detectors

A new efficiency calibration methodology for different atmospheric filter geometries by using coaxial Ge detectors

The study of the different pollutants present in atmospheric aerosols such as trace elements and radionuclides is essential to assess the air quality. To analyze the particulate matter (PM), atmospheric filters with different dimensions and geometries (rectangular, circular, slotted, and square filters) are usually employed. Regarding the pollutants existing in atmospheric aerosols, radionuclides are usually analyzed due to their multiple applications such as either in the environmental radiological control or as tracers of atmospheric processes. Therefore, this study aims to develop a new and general methodology to calibrate in efficiency coaxial Ge detectors to properly determine radionuclides present in the PM by gamma-ray spectrometry for several filter types. For this, granular certified reference materials (CRM) containing only natural radionuclides (238U-series, 232Th-series, and 40 K) were selected. Several granular solid CRMs were chosen allowing us to reproduce the same PM deposition geometry and to assure the homogeneity of the added CRMs. These are the main advantages in relation to the typical methods that use liquid CRMs. Furthermore, for filters whose surfaces are relatively large, they were cut in several pieces and placed one on top of the other, achieving the same geometry than the PM deposited onto the filter. Then, the experimental full-energy peak efficiencies (FEPEs) were obtained for each energy of interest (Eγ) and they were fitted versus Eγ, finding a general FEPE function for each filter type. Finally, this methodology was validated for both natural and artificial radionuclides (from 46 to 1332 keV) by using different filter types employed in proficiency test exercises, obtaining |zscore|< 2 for all cases.

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来源期刊
Air Quality Atmosphere and Health
Air Quality Atmosphere and Health ENVIRONMENTAL SCIENCES-
CiteScore
8.80
自引率
2.00%
发文量
146
审稿时长
>12 weeks
期刊介绍: Air Quality, Atmosphere, and Health is a multidisciplinary journal which, by its very name, illustrates the broad range of work it publishes and which focuses on atmospheric consequences of human activities and their implications for human and ecological health. It offers research papers, critical literature reviews and commentaries, as well as special issues devoted to topical subjects or themes. International in scope, the journal presents papers that inform and stimulate a global readership, as the topic addressed are global in their import. Consequently, we do not encourage submission of papers involving local data that relate to local problems. Unless they demonstrate wide applicability, these are better submitted to national or regional journals. Air Quality, Atmosphere & Health addresses such topics as acid precipitation; airborne particulate matter; air quality monitoring and management; exposure assessment; risk assessment; indoor air quality; atmospheric chemistry; atmospheric modeling and prediction; air pollution climatology; climate change and air quality; air pollution measurement; atmospheric impact assessment; forest-fire emissions; atmospheric science; greenhouse gases; health and ecological effects; clean air technology; regional and global change and satellite measurements. This journal benefits a diverse audience of researchers, public health officials and policy makers addressing problems that call for solutions based in evidence from atmospheric and exposure assessment scientists, epidemiologists, and risk assessors. Publication in the journal affords the opportunity to reach beyond defined disciplinary niches to this broader readership.
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