Performance of Small Evacuated Canisters Equipped with a Novel Flow Controller for the Collection of Personal Air Samples

Small evacuated canisters have become more common in industrial hygiene personal sampling in recent years. The smaller canisters necessitate a low flow rate to ensure a full-shift air sample can be collected. Evaluation of small evacuated canisters compared to sorbent sampling methods is essential t...

Full description

Saved in:
Bibliographic Details
Published in:Journal of occupational and environmental hygiene 2004-03, Vol.1 (3), p.173-181
Main Authors: Rossner, Alan, Warner, Stephanie D., Vyskocil, Adolf, Tardif, Robert, Farant, Jean-Pierre
Format: Article
Language:English
Subjects:
Adsorption
Air Pollution, Indoor - analysis
air sampling
Charcoal
Chromatography, Gas
Environmental Exposure
Environmental Monitoring - instrumentation
Equipment Design
evacuated canisters
Humans
Inhalation Exposure
Organic Chemicals - analysis
Sensitivity and Specificity
volatile organic compounds
Volatilization
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Small evacuated canisters have become more common in industrial hygiene personal sampling in recent years. The smaller canisters necessitate a low flow rate to ensure a full-shift air sample can be collected. Evaluation of small evacuated canisters compared to sorbent sampling methods is essential to ensure that the canisters accurately monitor airborne contamination. This data, in a controlled environment, will provide practitioners with valuable reference information when considering air-sampling campaigns. Six 300-mL evacuated canisters were used to collect 6-hour breathing zone samples of styrene on volunteers in a large exposure chamber. The canisters were specially designed with a capillary flow controller developed at McGill University in the mid-1990s. Based on the geometry of the capillary the airflow into the canisters was controlled to a low flow rate, ∼ 0.3 mL/min. This low sampling flow rate allowed for the use of small-volume canisters as personal samplers to collect styrene vapors. Charcoal tubes and diffusive badges were simultaneously used to collect side-by-side samples for comparison. In addition, an online gas chromatograph (GC) documented the concentration in the chamber throughout the duration of the exposure. The three methods did not disclose any significant statistical difference when compared to the online GC values and to each other. In addition, linear regression analysis between the charcoal tubes and the canisters resulted in a correlation (R 2 > 0.95). An evaluation of the bias and precision (overall uncertainty) of the capillary-canister method, charcoal tubes, and diffusive badges found them to be within criteria established by European Committee for Standardization 482. The results indicate that the capillary-canister sampling device can be an acceptable alternative to sorbent samplers as a personal sampler providing reliable results that are representative of exposures.
ISSN:1545-9624
1545-9632
DOI:10.1080/15459620490424483