Prototype sampling system for measuring workplace protection factors for gases and vapors.

William A Groves, Stephen J Reynolds
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引用次数: 7

Abstract

A prototype sampling system for measuring respirator workplace protection factors (WPFs) was developed. Methods for measuring the concentration of contaminants inside respirators have previously been described; however, these studies have typically involved continuous sampling of aerosols. Our work focuses on developing an intermittent sampling system designed to measure the concentration of gases and vapors during inspiration. This approach addresses two potential problems associated with continuous sampling: biased results due to lower contaminant concentrations and high humidity in exhaled air. The system consists of a pressure transducer circuit designed to activate a pair of personal sampling pumps during inspiration based on differential pressure inside the respirator. One pump draws air from inside the respirator while the second samples the ambient air. Solid granular adsorbent tubes are used to trap the contaminants, making the approach applicable to a large number of gases and vapors. Laboratory testing was performed using a respirator mounted on a headform connected to a breathing machine producing a sinusoidal flow pattern with an average flow rate of 20 L/min and a period of 3 seconds. The sampling system was adjusted to activate the pumps when the pressure inside the respirator was less than -0.1 inch H(2)O. Quantitative fit-tests using human subjects were conducted to evaluate the effect of the sampling system on respirator performance. A total of 299 fit-tests were completed for two different types of respirators (half- and full-facepiece) from two different manufacturers (MSA and North). Statistical tests showed no significant differences between mean fit factors for respirators equipped with the sampling system versus unmodified respirators. Field testing of the prototype sampling system was performed in livestock production facilities and estimates of WPFs for ammonia were obtained. Results demonstrate the feasibility of this approach and will be used in developing improved instrumentation for measuring WPFs.

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测量工作场所气体和蒸气保护系数的原型取样系统。
研制了一种测量呼吸器工作场所防护系数(WPFs)的采样系统样机。测量呼吸器内污染物浓度的方法以前已经描述过;然而,这些研究通常涉及对气溶胶的连续采样。我们的工作重点是开发一种间歇采样系统,用于测量灵感过程中气体和蒸汽的浓度。这种方法解决了与连续采样相关的两个潜在问题:由于较低的污染物浓度和呼出空气中的高湿度而导致的偏差结果。该系统由一个压力传感器电路组成,设计用于在吸气时根据呼吸器内的压差激活一对个人采样泵。一个泵从呼吸器内部抽取空气,而另一个则采集周围空气。固体颗粒吸附剂管用于捕获污染物,使该方法适用于大量气体和蒸汽。实验室测试使用安装在头罩上的呼吸器与呼吸机相连,产生平均流速为20 L/min的正弦流型,周期为3秒。当呼吸器内压力低于-0.1英寸H(2)O时,调整采样系统以激活泵。采用人体受试者进行了定量拟合试验,以评估采样系统对呼吸器性能的影响。来自两家不同制造商(MSA和North)的两种不同类型的呼吸器(半面罩和全面罩)共完成了299次适配测试。统计检验显示,配备采样系统的呼吸器与未改装的呼吸器的平均适合系数无显著差异。在畜牧业生产设施中对原型采样系统进行了现场测试,并获得了氨的wpf估计值。结果证明了这种方法的可行性,并将用于开发改进的wpf测量仪器。
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