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Comparison of PM2.5 measurements using the AirVisual Monitor and Beta Attenuation Monitor

Sampling Method

All of the instruments were operated in Chao Yang district, Beijing. The data from BAM is measured at the United States embassy, which is located at 55 Anjialou Road. The distance between the AV to the US embassy sensor is approximately 2.5km. The AV detector was located at a 20m-height balcony, facing the residential area, to ensure the data collected by the sensor was not affected by automotive traffic pollution.

Monitoring was conducted from the 1st of June (18:00) to the 30th of June 2015 (15:00), for a total measurement period of 30 days. The concentration of PM2.5 was monitored during June due to the high variation of the PM2.5 concentration.

Results and discussion

Time series plot of PM2.5 concentration

A quantitative method to compare data was used to gain a visual sense of the data’s precision by using a time series plot, as displayed in figure 1 and 2. Average PM2.5 concentration was calculated from the data recorded every one hour. PM2.5 concentration recorded between both instruments was slightly different. This is due to different detection methods between both instruments, as AV used light scattering and BAM utilized beta ray scattering. In addition, the response time of AV and BAM is different, in which, AV was set to record the concentration every one second, while BAM records the data hourly.

A total of 694 pieces of data were captured. The average PM2.5 mass concentration was distributed between 0 and 250 𝝁𝒈𝒎−𝟑. In general, there is a similar concentration trend for AV and BAM.

Figure_1

Fig 1: Time series of hourly average PM2.5 using the AV sensor and BAM (US Embassy sensor)

Figure_2

Fig 2 Time series of hourly average PM2.5 using the AV sensor and BAM (Chinese government sensor)

Correlation

Two statistical analyses were used to compare concentrations from AV and BAM. One was to compare the hourly difference between the two instruments as both an absolute concentration and percentage. The second method, compared AV to BAM using a linear regression analysis.

Relative difference

The relative difference can be calculated by dividing the absolute difference and the concentration value from the US embassy. By comparing the average daily measurement from the US embassy and AV sensor, the percentage difference was found to be 13.9%, which indicates an excellent correlation as the average error of the light scattering device is estimated to be approximately 30% to 40% according to (Molenar, n.d.). The relative differences are due to the natural variability of PM2.5 aerosol parameters and the scattering efficiency of the AV sensor. The spatial difference also contributes to the difference between the measurements. (Refer to factors that affects PM2.5 measurements)
While the hourly relative difference between AV and BAM is found to be 26.1%. Higher accuracy can be driven if you neglect outliers such as any concentration below 20 𝝁𝒈𝒎−𝟑. The lower the concentration level, the higher the uncertainty.

Linear regression

The purpose of linear regression analysis is to explore the relationship between corresponding measurements of AV and BAM across a range of concentrations. The regression procedure determines the “best’ available straight line for describing the relationship and the regression coefficient explains the correlation of the data. Figure X shows a comparison of the regression diagram.

The average coefficient of correlation squared (r2) of average daily measurements between AV and BAM was found to be 0.959. The slope was 0.9067 and the average interception was 4.6644. The agreement between the daily measurements is very good as the slope is close to 1 and r2 exceeds 0.9.

However, based on the hourly measurements, the slope is approximately 0.822 and r2 is 0.83, according to figure 4. Although the hourly data deviates more from the 1:1 line compared to the daily measurements, r2 of 0.83 indicates a fairly strong correlation between concentrations of AV and BAM.

Whilst the correlation between data from the Chinese government and AV shows a high r2, with a value of 0.93, the data deviates more from the 1:1 line more with a lower slope (0.83) and a higher intercept (9.54).

Figure_3

Figure 3: Linear regression lines of the average daily US embassy BAM data versus AV sensor data

Figure_4

Figure 4: Linear regression lines of the average hourly US embassy BAM data versus AV sensor data

Figure_5

Fig 5: Linear regression lines of the average daily Chinese government data versus AV data

Table 1. Comparison of the particle light scattering and beta ray scattering

Table_1

Conclusion

This investigation and accompanying figures illustrate that the calibrated light scattering detection device, the AirVisual sensor, is useful as an alternative instrument for monitoring PM2.5 concentration levels. Despite the low cost of the AirVisual sensor, the results from the present study suggest that the AirVisual measurements are reasonably precise, with (R2=0.83) compared to BAM, though the AirVisual sensor may still be influenced by factors such as changes in particle characteristics.

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