2018
DOI: 10.3390/s18092790
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Developing a Relative Humidity Correction for Low-Cost Sensors Measuring Ambient Particulate Matter

Abstract: There is increasing concern about the health impacts of ambient Particulate Matter (PM) exposure. Traditional monitoring networks, because of their sparseness, cannot provide sufficient spatial-temporal measurements characteristic of ambient PM. Recent studies have shown portable low-cost devices (e.g., optical particle counters, OPCs) can help address this issue; however, their application under ambient conditions can be affected by high relative humidity (RH) conditions. Here, we show how, by exploiting the … Show more

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Cited by 136 publications
(97 citation statements)
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“…As explained below, relative humidity larger than 70-80% contributes to particle growth with consequent erroneous reading of the particulate number counts. One of the solutions for this shortcoming consists of implementing a theory for the growth of particulates due to humidity when converting particulate numbers into mass concentrations [48,84,96].…”
Section: Calibration Of Sensorsmentioning
confidence: 99%
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“…As explained below, relative humidity larger than 70-80% contributes to particle growth with consequent erroneous reading of the particulate number counts. One of the solutions for this shortcoming consists of implementing a theory for the growth of particulates due to humidity when converting particulate numbers into mass concentrations [48,84,96].…”
Section: Calibration Of Sensorsmentioning
confidence: 99%
“…Some high values (R 2 higher than 0.95) were reported for studies using a linear calibration, while MLR did not perform well (R 2 < 0.5). These results are misleading, since the good results with linear calibration are generally obtained by discarding LSC data obtained with relative humidity exceeding a threshold between 70 and 80%, above which humidity is responsible for particle growth [84,96]. This effect is more important for PM 10 than for PM 1 and PM 2.…”
Section: Calibration Of Sensorsmentioning
confidence: 99%
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“…These uncorrected PM 10 readings of the sensors have an offset from that of the reference measured concentrations. The potential effect of relative humidity on particle size measurements could be attributed to the offset in measurements of PM sensors [7,17,23,48,49].…”
Section: Time Series Of Measured Pm 10 Concentrationsmentioning
confidence: 99%
“…Yet, concerns remain about the validation and quality control of those sensors (Castell et al, 2017) as few personal exposure studies have evaluated their performance in field deployment conditions (Rai et al, 2017). Typically, novel sensing platforms are exclusively evaluated in outdoor static co-locations with reference instruments and they only target small numbers of pollutants, most commonly ozone, nitrogen dioxide (Lin et al, 2015) and/or particulate matter (Holstius et al, 2014;Feinberg et al, 2018).…”
mentioning
confidence: 99%