进气管污染对用于环境空气细颗粒监测的中等成本光学颗粒计数器精度影响的案例研究

IF 1.1 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES Asian Journal of Atmospheric Environment Pub Date : 2024-11-05 DOI:10.1007/s44273-024-00045-w

Trieu-Vuong Dinh, Byeong-Gyu Park, Sang-Woo Lee, Da-Hyun Baek, In-Young Choi, Jo-Chun Kim

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引用次数: 0

摘要

本研究调查了长期使用入口加热管对用于环境空气细颗粒物（PM2.5）监测的中等成本光学颗粒物计数器（OPC）性能的影响。在为期 6 个月的时间里，部署了两台配有进气口加热管的光学粒子计数器，并用β衰减监测器（BAM）作为参照设备。将前 3 个月使用相同入口管道的 OPC 的性能与最后 3 个月频繁更换清洁管道后的性能进行了比较。与清洁管道（r2 >0.93）相比，长期污染管道（0.82 <r2 <0.93）与 OPC 和 BAM 之间 1 h 和 24 h PM2.5 平均浓度的相关系数（r2）较低。随着时间的推移，污染试管的相对平均误差和偏差明显增大。在 6 个月期间，温度、湿度、降水和风速对使用进气加热管的两种 OPC 的性能影响不大（r2 <0.1）。使用清洁管道时，PM2.5的相对平均误差小于4%。这些研究结果突出表明了进气口加热管在改善 OPC 性能方面的重要性，尤其是在减轻湿度影响方面。

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A case study on the effect of contaminated inlet tubes on the accuracy of mid-cost optical particle counters for the ambient air monitoring of fine particles

This study investigates the impact of the long-term use of inlet-heated tubes on the performance of mid-cost optical particle counters (OPCs) for ambient air monitoring of fine particles (PM_2.5). Two OPCs, equipped with inlet-heated tubes, were deployed over a 6-month period, with a beta attenuation monitor (BAM) serving as the reference device. The performance of the OPCs using the same inlet tubes for the first 3 months was compared to their performance after the frequent replacement of clean tubes during the final 3 months. The correlation coefficients (r²) for the 1 h and 24 h average PM_2.5 concentrations between the OPCs and the BAM were lower with long-term contaminated tubes (0.82 < r² < 0.93) compared to clean tubes (r² > 0.93). The relative mean errors and biases significantly increased over time with contaminated tubes. Temperature, humidity, precipitation, and wind speed were found to have an insignificant effect (r² < 0.1) on the performance of the two OPCs with inlet-heated tubes over the 6-month period. The relative average PM_2.5 error when using clean tubes was less than 4%. These findings highlight the importance of inlet-heated tubes in improving OPC performance, particularly for mitigating humidity effects.