AI Article Synopsis
- Indoor air contains various volatile and semi-volatile compounds that people inhale, and active sampling is the preferred method for obtaining quantitative data on these compounds.
- This study compares the concentrations of these compounds in air and water condensates by collecting and analyzing samples simultaneously using gas chromatography mass spectrometry.
- The research found that environmental conditions minimally impacted the concentrations in condensed water, allowing for the estimation of distribution coefficients for certain compounds, which ultimately provided a way to evaluate air concentrations more effectively, especially for some semi-volatile compounds.
Article Abstract
Atmospheres from indoor areas contain a range of volatile and semi-volatile compounds to which inhabitants are exposed through breathing. Despite different qualitative approaches have been proposed for the identification of compounds associated to the vapor phase of confined areas, active sampling remains as the preferred technique when quantitative data is required. Herein, we investigate the correlations existing between concentrations in air and water condensates obtained from indoor areas. To this end, samples of both matrices were simultaneously collected and analyzed by gas chromatography mass spectrometry. After validation of sample concentration approaches for a selection of compounds, the effect of different operational conditions, and environmental variables, in their concentrations in condensed water was assessed. Levels in this matrix were hardly affected by sampling time, air flow through the dehumidifier device, and the environmental temperature and humidity. Thus, air water distribution coefficients (K) could be estimated for fourteen out of sixteen pre-selected compounds. These values permitted a semiquantitative evaluation of their concentrations existing in air from different areas. In case of semi-volatile compounds (i.e. phenol, benzothiazole, phthalates), with log K below -4.8, analysis of 50 mL water samples permitted to achieve lower limits of quantification than active air sampling for 3 h at a flowrate of 1 m h.
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| http://dx.doi.org/10.1016/j.chemosphere.2024.142403 | DOI Listing |
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