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Development and Performance Evaluation of a Low-Cost Portable PM2.5 Monitor for Mobile Deployment

Mingjian Chen, Weichang Yuan, Chang Cao, Colby Buehler, Drew R. Gentner, Xuhui Lee

2022Sensors16 citationsDOIOpen Access PDF

Abstract

The concentration of fine particulate matter (PM2.5) is known to vary spatially across a city landscape. Current networks of regulatory air quality monitoring are too sparse to capture these intra-city variations. In this study, we developed a low-cost (60 USD) portable PM2.5 monitor called Smart-P, for use on bicycles, with the goal of mapping street-level variations in PM2.5 concentration. The Smart-P is compact in size (85 × 85 × 42 mm) and light in weight (147 g). Data communication and geolocation are achieved with the cyclist’s smartphone with the help of a user-friendly app. Good agreement was observed between the Smart-P monitors and a regulatory-grade monitor (mean bias error: −3.0 to 1.5 μg m−3 for the four monitors tested) in ambient conditions with relative humidity ranging from 38 to 100%. Monitor performance decreased in humidity > 70% condition. The measurement precision, represented as coefficient of variation, was 6 to 9% in stationary mode and 6% in biking mode across the four tested monitors. Street tests in a city with low background PM2.5 concentrations (8 to 9 μg m−3) and in two cities with high background concentrations (41 to 74 μg m−3) showed that the Smart-P was capable of observing local emission hotspots and that its measurement was not sensitive to bicycle speed. The low-cost and user-friendly nature are two features that make the Smart-P a good choice for empowering citizen scientists to participate in local air quality monitoring.

Topics & Concepts

GeolocationAir quality indexSoftware deploymentEnvironmental scienceRelative humidityRangingComputer scienceReal-time computingAutomotive engineeringMeteorologyTelecommunicationsEngineeringGeographyWorld Wide WebOperating systemAir Quality Monitoring and ForecastingAir Quality and Health ImpactsVehicle emissions and performance