Air sampling by pumping through a filter: effects of air flow rate, concentration, and decay of airborne substances

M. Šoštarić, B. Petrinec, D. Babić
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Abstract

Abstract This paper tackles the issue of interpreting the number of airborne particles adsorbed on a filter through which a certain volume of sampled air has been pumped. This number is equal to the product of the pumped volume and particle concentration in air, but only if the concentration is constant over time and if there is no substance decomposition on the filter during sampling. If this is not the case, one must take into account the inconstancy of the concentration and the decay law for a given substance, which is complicated even further if the flow rate through the filter is not constant. In this paper, we develop a formalism which considers all of these factors, resulting in a single, compact expression of general applicability. The use of this expression is exemplified by addressing a case of sampling airborne radioactive matter, where the decay law is already well known. This law is combined with three experimentally observed time dependence of the flow rate and two models for the time dependence of the particle concentration. We also discuss the implications of these calculations for certain other situations of interest to environmental studies.
通过过滤器抽送空气取样:空气流速、浓度和空气中物质衰变的影响
摘要:本文解决的问题是解释吸附在过滤器上的空气颗粒的数量,通过该过滤器泵送一定体积的采样空气。这个数字等于泵送的体积和空气中的颗粒浓度的乘积,但前提是浓度随时间不变,并且采样期间过滤器上没有物质分解。如果不是这样,就必须考虑到给定物质的浓度和衰变规律的不恒定,如果通过过滤器的流量不恒定,情况就更加复杂了。在本文中,我们发展了一个考虑所有这些因素的形式,从而得到一个单一的、紧凑的、普遍适用的表达式。通过处理空气中放射性物质采样的一个例子来说明这个表达式的使用,在这个例子中,衰变定律已经是众所周知的。该定律与三个实验观察到的流速随时间的变化规律和两个粒子浓度随时间变化的模型相结合。我们还讨论了这些计算对环境研究感兴趣的某些其他情况的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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