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Temporal changes in field calibration relationships for Aeroqual S500 O3 and NO2 sensor-based monitors

Sensor-based monitors are increasingly used to measure air pollutant concentrations, but require calibration under field conditions. We made intermittent comparisons (6 times over a 6-month period) between ozone and nitrogen dioxide concentrations measured by Aeroqual gas-sensitive semiconductor (O3...

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Main Authors: Masey, Nicola, Gillespie, Jonathan, Ezani, Nor Eliani, Chun, Lin, Hao, Wu, Ferguson, Neil S., Hamilton, Scott, Heal, Mathew R., Beverland, Iain J.
Format: Article
Language:English
Published: Elsevier 2018
Online Access:http://psasir.upm.edu.my/id/eprint/74093/1/Temporal%20changes%20in%20field%20calibration%20relationships%20for%20Aeroqual%20S500%20O3%20and%20NO2%20sensor-based%20monitors.pdf
http://psasir.upm.edu.my/id/eprint/74093/
https://www.sciencedirect.com/science/article/pii/S0925400518313200
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spelling my.upm.eprints.740932020-04-27T16:01:35Z http://psasir.upm.edu.my/id/eprint/74093/ Temporal changes in field calibration relationships for Aeroqual S500 O3 and NO2 sensor-based monitors Masey, Nicola Gillespie, Jonathan Ezani, Nor Eliani Chun, Lin Hao, Wu Ferguson, Neil S. Hamilton, Scott Heal, Mathew R. Beverland, Iain J. Sensor-based monitors are increasingly used to measure air pollutant concentrations, but require calibration under field conditions. We made intermittent comparisons (6 times over a 6-month period) between ozone and nitrogen dioxide concentrations measured by Aeroqual gas-sensitive semiconductor (O3) and electrochemical (NO2) sensors (two of each) and reference analysers in the UK Automatic Urban and Rural Network. Each deployment period was split into equal (n = 48×1-hour) training and test datasets, to derive and test calibration equations respectively. We observed significant bivariate linear relationships between Aeroqual O3 and Reference O3 concentrations, and significant multiple linear relationships between Aeroqual NO2 and both Reference NO2 and Aeroqual O3 concentrations. Changes in monitor responses over time (including apparent baseline drift in O3 sensor output, and discrepancies between the 2 Aeroqual NO2 sensors) resulted in relatively inaccurate concentrations estimates (cf. reference concentrations) from calibration equations derived in the first training period and applied to subsequent test deployments (e.g. NO2 RMSE = 47.2 μg m−3 (n = 286) for a dataset of all test periods combined, for one of the two monitor pairs). Substantial improvements in accuracy of estimated concentrations were achieved by combination of repeated intermittent training data into a single calibration dataset (NO2 RMSE = 8.5 μg m−3 for same test dataset described above). This latter approach to field calibration is recommended. Elsevier 2018 Article PeerReviewed text en http://psasir.upm.edu.my/id/eprint/74093/1/Temporal%20changes%20in%20field%20calibration%20relationships%20for%20Aeroqual%20S500%20O3%20and%20NO2%20sensor-based%20monitors.pdf Masey, Nicola and Gillespie, Jonathan and Ezani, Nor Eliani and Chun, Lin and Hao, Wu and Ferguson, Neil S. and Hamilton, Scott and Heal, Mathew R. and Beverland, Iain J. (2018) Temporal changes in field calibration relationships for Aeroqual S500 O3 and NO2 sensor-based monitors. Sensors and Actuators B: Chemical, 273. 1800 - 1806. ISSN 0925-4005 https://www.sciencedirect.com/science/article/pii/S0925400518313200 10.1016/j.snb.2018.07.087
institution Universiti Putra Malaysia
building UPM Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Putra Malaysia
content_source UPM Institutional Repository
url_provider http://psasir.upm.edu.my/
language English
description Sensor-based monitors are increasingly used to measure air pollutant concentrations, but require calibration under field conditions. We made intermittent comparisons (6 times over a 6-month period) between ozone and nitrogen dioxide concentrations measured by Aeroqual gas-sensitive semiconductor (O3) and electrochemical (NO2) sensors (two of each) and reference analysers in the UK Automatic Urban and Rural Network. Each deployment period was split into equal (n = 48×1-hour) training and test datasets, to derive and test calibration equations respectively. We observed significant bivariate linear relationships between Aeroqual O3 and Reference O3 concentrations, and significant multiple linear relationships between Aeroqual NO2 and both Reference NO2 and Aeroqual O3 concentrations. Changes in monitor responses over time (including apparent baseline drift in O3 sensor output, and discrepancies between the 2 Aeroqual NO2 sensors) resulted in relatively inaccurate concentrations estimates (cf. reference concentrations) from calibration equations derived in the first training period and applied to subsequent test deployments (e.g. NO2 RMSE = 47.2 μg m−3 (n = 286) for a dataset of all test periods combined, for one of the two monitor pairs). Substantial improvements in accuracy of estimated concentrations were achieved by combination of repeated intermittent training data into a single calibration dataset (NO2 RMSE = 8.5 μg m−3 for same test dataset described above). This latter approach to field calibration is recommended.
format Article
author Masey, Nicola
Gillespie, Jonathan
Ezani, Nor Eliani
Chun, Lin
Hao, Wu
Ferguson, Neil S.
Hamilton, Scott
Heal, Mathew R.
Beverland, Iain J.
spellingShingle Masey, Nicola
Gillespie, Jonathan
Ezani, Nor Eliani
Chun, Lin
Hao, Wu
Ferguson, Neil S.
Hamilton, Scott
Heal, Mathew R.
Beverland, Iain J.
Temporal changes in field calibration relationships for Aeroqual S500 O3 and NO2 sensor-based monitors
author_facet Masey, Nicola
Gillespie, Jonathan
Ezani, Nor Eliani
Chun, Lin
Hao, Wu
Ferguson, Neil S.
Hamilton, Scott
Heal, Mathew R.
Beverland, Iain J.
author_sort Masey, Nicola
title Temporal changes in field calibration relationships for Aeroqual S500 O3 and NO2 sensor-based monitors
title_short Temporal changes in field calibration relationships for Aeroqual S500 O3 and NO2 sensor-based monitors
title_full Temporal changes in field calibration relationships for Aeroqual S500 O3 and NO2 sensor-based monitors
title_fullStr Temporal changes in field calibration relationships for Aeroqual S500 O3 and NO2 sensor-based monitors
title_full_unstemmed Temporal changes in field calibration relationships for Aeroqual S500 O3 and NO2 sensor-based monitors
title_sort temporal changes in field calibration relationships for aeroqual s500 o3 and no2 sensor-based monitors
publisher Elsevier
publishDate 2018
url http://psasir.upm.edu.my/id/eprint/74093/1/Temporal%20changes%20in%20field%20calibration%20relationships%20for%20Aeroqual%20S500%20O3%20and%20NO2%20sensor-based%20monitors.pdf
http://psasir.upm.edu.my/id/eprint/74093/
https://www.sciencedirect.com/science/article/pii/S0925400518313200
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score 13.211869

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