Exposures and Biomonitoring Division, Environmental Health Science and Research Bureau, Health Canada, Ottawa, Ontario, Canada.
J Air Waste Manag Assoc. 2010 Sep;60(9):1065-77. doi: 10.3155/1047-3289.60.9.1065.
Numerous sources of uncertainty are associated with the gravimetric analysis of lightly loaded air filter samples (< 100 microg). The purpose of the study presented here is to investigate the effectiveness and limitations of air buoyancy corrections over experimentally adjusted conditions of temperature (21-25 degrees C) and relative humidity (RH) (16-60% RH). Conditioning (24 hr) and weighing were performed inside the Archimedes M3 environmentally controlled chamber. The measurements were performed using 20 size-fractionated samples of resuspended house dust loaded onto Teflo (PTFE) filters using a Micro-Orifice Uniform Deposit Impactor representing a wide range of mass loading (7.2-3130 microg) and cut sizes (0.056-9.9 microm). By maintaining tight controls on humidity (within 0.5% RH of control setting) throughout pre- and postweighing at each stepwise increase in RH, it was possible to quantify error due to water absorption: 45% of the total mass change due to water absorption occurred between 16 and 50% RH, and 55% occurred between 50 and 60% RH. The buoyancy corrections ranged from -3.5 to +5.8 microg in magnitude and improved relative standard deviation (RSD) from 21.3% (uncorrected) to 5.6% (corrected) for a 7.2 microg sample. It is recommended that protocols for weighing low-mass particle samples (e.g., nanoparticle samples) should include buoyancy corrections and tight temperature/humidity controls. In some cases, conditioning times longer than 24 hr may be warranted.
在对轻度加载的空气过滤器样品(<100 微克)进行重量分析时,存在许多不确定因素。本研究的目的是研究在实验调整的温度(21-25°C)和相对湿度(RH)(16-60%RH)条件下,空气浮力校正的有效性和局限性。调节(24 小时)和称重在阿基米德 M3 环境控制室内进行。使用代表广泛质量加载(7.2-3130 微克)和切割尺寸(0.056-9.9 微米)的重新悬浮房屋灰尘的 20 个大小分级样品,使用微喷口均匀沉积撞击器进行测量。通过在每次 RH 逐步增加时在预称重和后称重过程中严格控制湿度(控制设定值的 0.5%RH 以内),可以量化由于水分吸收而导致的误差:由于水分吸收而导致的总质量变化的 45%发生在 16%和 50%RH 之间,55%发生在 50%和 60%RH 之间。浮力校正的幅度从-3.5 到+5.8 微克不等,对于 7.2 微克的样品,相对标准偏差(RSD)从未经校正的 21.3%提高到校正后的 5.6%。建议对低质量颗粒样品(例如纳米颗粒样品)进行称重的协议应包括浮力校正和严格的温度/湿度控制。在某些情况下,可能需要超过 24 小时的调节时间。
