A case study evaluating the performance of a cost-effective optical particle counter coupled with a humidity compensation approach for ambient air monitoring of particulate matter

IF 1.1 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES
Trieu-Vuong Dinh, Byeong-Gyu Park, Sang-Woo Lee, Jae-Hyung Park, Da-Hyun Baek, In-Young Choi, Ye-Bin Seo, Jin-Woo Choi, Jo-Chun Kim
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引用次数: 0

Abstract

The spatial monitoring of submicron particles has become an essential issue due to their negative effects on human health. However, the use of high-cost and high-grade measurement instruments is a challenging investment cost. Thus, a cost-effective optical particle counter (OPC), which is improved measurement quality, has become a good candidate. In this study, two cost-effective OPCs, coupled with a heated inlet tube to reduce the effect of humidity on its measurements, were applied in the field to measure ambient PM10, PM2.5, and PM1 over 1 month. Their 1-h-average and 24-h-average data were compared with those obtained from a reference-grade OPC and a beta attenuation monitor (BAM). In particular, the correlations between the measurement data obtained from them, the differences in the mean values of these data, and the relative errors were evaluated. The PM2.5 data obtained from cost-effective OPCs were comparable to those from BAM at even under high humidity conditions, except for rainy days. The data obtained from the cost-effective OPCs also showed good correlations and low relative errors (i.e., < 7%) compared to the reference-grade OPC, with no significant difference in mean values in terms of the PM2.5 and PM1 data. Although the measurement of PM10 by the cost-effective OPCs showed lower quality than PM2.5 and PM1, the relative errors were still acceptable (i.e., < 18%) compared with those in other studies. Therefore, the cost-effective OPC coupled with a heated inlet tube has the potential to serve as a real-time monitoring instrument for ambient PM2.5 and PM1.

一项案例研究,评估经济高效的光学颗粒计数器与湿度补偿方法相结合在环境空气颗粒物监测中的性能
由于亚微米粒子对人类健康的负面影响,对其进行空间监测已成为一个至关重要的问题。然而,使用高成本和高档次的测量仪器是一项具有挑战性的投资成本。因此,测量质量更高的高性价比光学粒子计数器(OPC)成为了一个不错的选择。在本研究中,两台高性价比的光学粒子计数器配合加热进气管以减少湿度对其测量的影响,被用于实地测量环境中的 PM10、PM2.5 和 PM1,历时 1 个月。它们的 1 小时平均值和 24 小时平均值数据与参考级 OPC 和贝塔衰减监测仪(BAM)获得的数据进行了比较。特别是对从它们那里获得的测量数据之间的相关性、这些数据平均值的差异以及相对误差进行了评估。即使在高湿度条件下(雨天除外),从具有成本效益的 OPC 获得的 PM2.5 数据也与从 BAM 获得的数据相当。与参考级 OPC 相比,高性价比 OPC 获得的数据也显示出良好的相关性和较低的相对误差(即 7%),PM2.5 和 PM1 数据的平均值没有显著差异。虽然高性价比的OPC测量PM10的质量低于PM2.5和PM1,但与其他研究相比,相对误差仍然可以接受(即18%)。因此,高性价比的臭氧粒子监测仪加上加热进气管,有潜力成为环境 PM2.5 和 PM1 的实时监测仪器。
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来源期刊
Asian Journal of Atmospheric Environment
Asian Journal of Atmospheric Environment METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
2.80
自引率
6.70%
发文量
22
审稿时长
21 weeks
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