Litcius/Paper detail

A 30-month field evaluation of low-cost CO <sub>2</sub> sensors using a reference instrument

Qixiang Cai, Ning Zeng, Xiaoyu Yang, Chi Xu, Zhaojun Wang, Pengfei Han

2025Atmospheric measurement techniques6 citationsDOIOpen Access PDF

Abstract

Abstract. Low-cost, medium-precision sensor (LCS) networks have emerged as a promising approach for CO2 monitoring under complex urban emission conditions. However, the field performance of these LCSs faces significant challenges from environmental factors (e.g., temperature, humidity) and long-term drifts caused by sensor degradation (e.g., light source aging). In this study, we performed 30 months of co-located observations using LCS units (named SENSE-IAP) alongside a Picarro reference analyzer to evaluate long-term field performance, which is essential for the correction and validation of mid–low-cost CO2 observation networks. The environmental correction system we developed effectively corrected the impact of daily environmental changes, which reduced the root mean square errors (RMSEs) from 5.9 ± 1.2 to 1.6 ± 0.5 ppm for SENSE-IAP. The corrections remained robust against seasonal environmental changes, maintaining daily RMSE typically within 1–3 ppm throughout the 30 months of observation. Long-term drifts, commonly occurred in LCS, produced biases of up to 27.9 ppm over 2 years. Furthermore, seasonal drift cycle contributed up to 25 ppm RMSE after 6 months of deployment. Although the environmental correction system could not address these errors, linear interpolation effectively calibrated the long-term drift, reducing the 30-month RMSE to 2.4 ± 0.2 ppm. To improve the accuracy of high-density CO2 networks using such LCSs, we recommend maintaining a calibration frequency preferably within 3 months and not exceeding 6 months, with optimal calibration performed during both winter and summer to ensure accuracy within 5 ppm. These findings indicate that SENSE-IAP instruments can operate long-term without requiring a return to the laboratory for re-calibration or frequent field standard gas calibration, thereby substantially reducing time, labor, and financial costs.

Topics & Concepts

CalibrationMean squared errorEnvironmental scienceRemote sensingInterpolation (computer graphics)Field (mathematics)Spectrum analyzerMeteorologyLinear interpolationRoot mean squareEnvironmental monitoringObservational errorDegradation (telecommunications)Atmospheric sciencesComputer scienceAccuracy and precisionSystem of measurementSquare (algebra)Atmospheric and Environmental Gas DynamicsAir Quality Monitoring and ForecastingSpectroscopy and Laser Applications
A 30-month field evaluation of low-cost CO <sub>2</sub> sensors using a reference instrument | Litcius