Small-Scale Diffusion Dryer on an Optical Particle Counter for High-Humidity Aerosol Measurements with an Uncrewed Aircraft System

IF 1.9 4区 地球科学 Q2 ENGINEERING, OCEAN
Vasileios Savvakis, M. Schön, Matteo Bramati, J. Bange, A. Platis
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Abstract

The negative effects of relative humidity to measurements of particulate matter (PM) due to hygroscopic growth are often not inherently handled by low-cost optical particle counters (OPCs). This study presents a new approach in constructing a miniaturized diffusion dryer, for use with an OPC mounted on an uncrewed aircraft system (UAS), namely, the DJI S900 (weight of 7.5 kg and flight endurance of 20 min) for short-term measurements under humid conditions. In this work, an OPC of type N3 (Alphasense) was employed alongside the dryer, with experiments both in the laboratory and outdoors. Evaluation of the dryer’s performance in a fog tank showed effective drying from almost saturated air to 41% relative humidity for 35 min, which is longer than the endurance of the UAS, and therefore sufficient. Changes in the flow rate through the OPC-N3 with the dryer showed a 17% reduction compared to an absent dryer, but the measured PM values remained unaffected. Airborne measurements were taken from four hovering flights near a governmental air pollution station (Mannheim-Nord, Germany) under humid conditions (88%–93%) where the system gave agreeable concentrations when the dryer was in place, but significantly overestimated all PM types without it. At a rural area near the Boundary Layer Field Site Falkenberg (Lindenberg, Germany), operated by the German Meteorological Service (DWD), vertical profiles inside a low-altitude cloud showed sharp increase in concentrations when the UAS entered the cloud layer, demonstrating its capability to accurately detect the layer base.
在光学粒子计数器上安装小规模扩散干燥器,利用无螺杆飞行器系统进行高湿度气溶胶测量
由于吸湿性的增长,相对湿度对颗粒物(PM)测量的负面影响往往不是低成本光学颗粒物计数器(OPC)所能处理的。本研究提出了一种构建微型扩散干燥器的新方法,该方法可与安装在无人驾驶飞行器系统(UAS)(即大疆 S900,重量为 7.5 千克,续航时间为 20 分钟)上的光学粒子计数器配合使用,用于潮湿条件下的短期测量。在这项工作中,N3 型 OPC(Alphasense)与干燥器一起使用,在实验室和室外进行实验。在雾罐中对干燥器性能的评估显示,从几乎饱和的空气到 41% 的相对湿度,干燥器可以有效地工作 35 分钟,这比 UAS 的耐用时间长,因此足够了。与不使用干燥器的情况相比,使用干燥器的 OPC-N3 流量减少了 17%,但 PM 测量值未受影响。在一个政府空气污染站(德国曼海姆北部)附近进行了四次悬停飞行,在潮湿条件(88%-93%)下进行了机载测量。在德国气象局(DWD)运营的法尔肯贝格边界层现场(德国林登贝格)附近的一个农村地区,当无人机系统进入云层时,低空云层内的垂直剖面显示浓度急剧上升,这证明了无人机系统准确探测云层底部的能力。
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来源期刊
CiteScore
4.50
自引率
9.10%
发文量
135
审稿时长
3 months
期刊介绍: The Journal of Atmospheric and Oceanic Technology (JTECH) publishes research describing instrumentation and methods used in atmospheric and oceanic research, including remote sensing instruments; measurements, validation, and data analysis techniques from satellites, aircraft, balloons, and surface-based platforms; in situ instruments, measurements, and methods for data acquisition, analysis, and interpretation and assimilation in numerical models; and information systems and algorithms.
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