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Proxy methods for detection of inhalation exposure in simulated office environments

Authors :
Seoyeon Yun
Sailin Zhong
Hamed S. Alavi
Alexandre Alahi
Dusan Licina
Source :
Journal of exposure scienceenvironmental epidemiology.
Publication Year :
2022

Abstract

BACKGROUND: Modern health concerns related to air pollutant exposure in buildings have been exacerbated owing to several factors. Methods for assessing inhalation exposures indoors have been restricted to stationary air pollution measurements, typically assuming steady-state conditions. Objective We aimed to examine the feasibility of several proxy methods for estimating inhalation exposure to CO2, PM2.5, and PM10 in simulated office environments.<br />METHODS: In a controlled climate chamber mimicking four different office setups, human participants performed a set of scripted sitting and standing office activities. Three proxy sensing techniques were examined: stationary indoor air quality (IAQ) monitoring, individual monitoring of physiological status by wearable wristband, human presence detection by Passive Infrared (PIR) sensors. A ground-truth of occupancy was obtained from video recordings of network cameras. The results were compared with the concurrent IAQ measurements in the breathing zone of a reference participant by means of multiple linear regression (MLR) analysis with a combination of different input parameters.<br />RESULTS: Segregating data onto sitting and standing activities could lead to improved accuracy of exposure estimation model for CO2 and PM by 9-60% during sitting activities, relative to combined activities. Stationary PM2.5 and PM10 monitors positioned at the ceiling-mounted ventilation exhaust in vicinity of the seated reference participant accurately estimated inhalation exposure (adjusted R-2 = 0.91 and R-2 = 0.87). Measurement at the front edge of the desk near abdomen showed a moderate accuracy (adjusted R-2 = 0.58) in estimating exposure to CO2. Combining different sensing techniques improved the CO2 exposure detection by twofold, whereas the improvement for PM exposure detection was small (similar to 10%).<br />SIGNIFICANCE: This study contributes to broadening the knowledge of proxy methods for personal exposure estimation under dynamic occupancy profiles. The study recommendations on optimal monitor combination and placement could help stakeholders better understand spatial air pollutant gradients indoors which can ultimately improve control of IAQ.

Details

ISSN :
1559064X
Database :
OpenAIRE
Journal :
Journal of exposure scienceenvironmental epidemiology
Accession number :
edsair.doi.dedup.....aa42a353c9603b7792d7d4dad302914e