Application of an Ultra-Low-Cost Passive Sampler for Light-Absorbing Carbon in Mongolia

2023  Journal Article

Application of an Ultra-Low-Cost Passive Sampler for Light-Absorbing Carbon in Mongolia

Pub TLDR

This study demonstrates the effectiveness of the Washington passive sampler (WPS) for measuring light-absorbing carbon (LAC) in Mongolia, highlighting the potential of low-cost, passive air pollution sampling methods to significantly contribute to environmental monitoring, public health research, and policy development.

By offering a practical and affordable solution for air quality measurement, the WPS can play a crucial role in addressing the global challenge of air pollution, particularly in settings where resources for environmental monitoring and public health interventions are limited.

DOI: 10.3390/s23218977    PubMed ID: 37960676
 

College of Health researcher(s)

OSU Profile

Abstract

Low-cost, long-term measures of air pollution concentrations are often needed for epidemiological studies and policy analyses of household air pollution. The Washington passive sampler (WPS), an ultra-low-cost method for measuring the long-term average levels of light-absorbing carbon (LAC) air pollution, uses digital images to measure the changes in the reflectance of a passively exposed paper filter. A prior publication on WPS reported high precision and reproducibility. Here, we deployed three methods to each of 10 households in Ulaanbaatar, Mongolia: one PurpleAir for PM2.5; two ultrasonic personal aerosol samplers (UPAS) with quartz filters for the thermal-optical analysis of elemental carbon (EC); and two WPS for LAC. We compared multiple rounds of 4-week-average measurements. The analyses calibrating the LAC to the elemental carbon measurement suggest that 1 µg of EC/m3 corresponds to 62 PI/month (R2 = 0.83). The EC-LAC calibration curve indicates an accuracy (root-mean-square error) of 3.1 µg of EC/m3, or ~21% of the average elemental carbon concentration. The RMSE values observed here for the WPS are comparable to the reported accuracy levels for other methods, including reference methods. Based on the precision and accuracy results shown here, as well as the increased simplicity of deployment, the WPS may merit further consideration for studying air quality in homes that use solid fuels.

Bekbulat, B., Agrawal, P., Allen, R.W., Baum, M., Boldbaatar, B., Clark, L.P., Galsuren, J., Hystad, P., L’Orange, C., Vakacherla, S., Volckens, J., Marshall, J.(2023)Application of an Ultra-Low-Cost Passive Sampler for Light-Absorbing Carbon in MongoliaSensors23(21)