Demokritou Philip, Gupta Tarun, Ferguson Stephen, Koutrakis Petros
Environmental Science and Engineering Program, School of Public Health, Harvard University, Boston, Massachusetts, USA.
J Air Waste Manag Assoc. 2002 Oct;52(10):1230-7. doi: 10.1080/10473289.2002.10470855.
This paper presents the design and laboratory evaluation of a personal cascade impactor. The system is compact, lightweight, and uses a single battery-operated sampling pump. It operates at a flow rate of 5 L/min and consists of four impaction stages, each equipped with slit-shaped acceleration nozzles, and a backup filter. The impactor was calibrated using polydisperse particles. The 50% cut points of the four stages were 9.6, 2.6, 1.0, and 0.5 microm, respectively. The backup filter is placed downstream of the fourth stage and is used to collect the particles with an aerodynamic diameter smaller than 0.5 microm (dp < 0.5 microm). The major feature of this novel sampler is its ability not only to fractionate the particles with an aerodynamic diameter smaller than 10 microm to the various size fractions, but also to collect them onto relatively small polyurethane foam substrates without using adhesives. Although the impaction substrates are not coated with adhesives such as grease or mineral oil, particle bounce and re-entrainment losses were found to be insignificant. Interstage losses of particles smaller than 0.5 microm were less than 10%; for fine particles, less than 5%; and for coarse particles, less than 12%. The pressure drop across the four stages and the backup filter were 0.015 kPa (0.153 cm H2O),0.025 kPa (0.255 cm H2O), 0.274 kPa (2.794 cm H2O), 0.323 kPa (3.294 cm H2O), and 0.370 kPa (3.773 cm H2O), respectively. Particles can be easily recovered from the foam substrates using aqueous extraction.
本文介绍了一种个人级联撞击器的设计与实验室评估。该系统结构紧凑、重量轻,采用单个电池供电的采样泵。它以5升/分钟的流速运行,由四个撞击阶段组成,每个阶段都配备有狭缝形加速喷嘴,还有一个备用过滤器。该撞击器使用多分散颗粒进行校准。四个阶段的50%切割点分别为9.6、2.6、1.0和0.5微米。备用过滤器位于第四阶段的下游,用于收集空气动力学直径小于0.5微米(dp < 0.5微米)的颗粒。这种新型采样器的主要特点是,它不仅能够将空气动力学直径小于10微米的颗粒分级到不同的粒径级分中,而且还能在不使用粘合剂的情况下将它们收集到相对较小的聚氨酯泡沫基材上。尽管撞击基材没有涂覆油脂或矿物油等粘合剂,但发现颗粒反弹和再夹带损失微不足道。小于0.5微米的颗粒的级间损失小于10%;细颗粒小于5%;粗颗粒小于12%。四个阶段和备用过滤器的压降分别为0.015千帕(0.153厘米水柱)、0.025千帕(0.255厘米水柱)、0.274千帕(2.794厘米水柱)、0.323千帕(3.294厘米水柱)和0.370千帕(3.773厘米水柱)。使用水萃取法可以很容易地从泡沫基材中回收颗粒。
