Monthly Archives: February 2018

How To Use a Fire Extinguisher

Here is a useful little video on how to use a fire extinguisher – something we should all know!

Dust Monitoring Equipment – providing equipment, services and training in dust fallout management to the mining industry.


Uncertainty of dustfall monitoring results

Single Bucket DustWatch unit

Let’s continue to read some of this online early research article on the “Uncertainty of dustfall monitoring results” by Martin A van Nierop, Elanie van Staden, Jared Lodder and Stuart J Piketh

To read the full article and to see any diagrams referred to below, follow this link – Clean Air Journal

To read the start of this research paper, follow this link – Fugitive Dust

Statistical analysis
The variability of each bucket at each site was calculated to determine the difference in the dust collected for each bucket by calculating the standard deviation for each sampler. This gave an indication of precision. Box plots for all of the sites for every month show the distribution of the data. A margin of error for each site was calculated using the following equation:

Where; E = margin of error
t = critical value for confidence level c (at 90%)
σ = standard deviation
n = amount of samples

To calculate the uncertainty of the results, the mean of each site was determined. The upper and lower limits (plus/minus 10% from the mean) was used to determine what percentage of samples were outside this band.

Thereafter, the relative standard deviation (%RSD) was calculated to compare the precision of the absolute deposition values between sites.
Some of the results are presented in this section, the balance can be found in appendix A to C.
The standard deviation of 144 samples (12 sites monitored for 12 months) was calculated (Figure 2). 91% of the data points had a standard deviation below 400 mg/m2 /day, 81 % of the data points had a standard deviation below 300 mg/m2 /day, and 38% had standard deviations below 100 mg/m2 /day, this
gives an indication of the range of deviation for the entire data set.

The analysis of variance for the results is presented using box plots (Figures 3 and 4). These plots (representing two of the 12 months sampled) are a visual representation of the spread of
the data collected for eash site. The smaller the box plot, the lower the variance, and in this case the uncertainty.

Outliers are those data points that are statistically uncertain.

A second method of measuring the uncertainty was to plot the 90% confidence interval (Figures 5 and 6) and to determine the percentage of data points that fell outside of this interval. The majority of data points (51%) at all site fell outside of the 90% confidence level.
The third method of measuring the uncertainty was to provide a band of plus/minus 10% from the mean of the four data points and determine the number of samples lying outside of the band. This is represented graphically for sites 4 and 11 (Figures 7 and 8). 28% of the 288 results were outside the band.

Finally, the relative standard deviation is calculated to compare the precision of the absolute deposition values between sites. A high RSD value indicates a high uncertainty. The average RSD for all sites and for all months was calculated at 11.69%. Most of the sites have a low percentage RSD indicating a small spread between the points (Table 1). There are some points within the dataset that have a higher variability.
The cell shading in Table 1
represent the following:
• No colour: RSD below 15%
• Light red: RSD between 15 and 20%
• Red: RSD above 20%
• Dark Red: RSD above 40%
Standard deviation is used to show how far the data spreads from the mean. The higher the standard deviation the more spread out the data is. A low uncertainty would be represented by a standard deviation of less than ±5% of the mean. The buckets at each site were exposed to the same environments; therefore, it is expected that they should collect the same amount of dust.
The box plots are a visual way of representing the data from the sample. It shows the minimum, maximum, median, interquartile ranges and outliers. They are only able to show the outlier with
the greatest or the smallest value. This is due to the small data groups (populations of 4). Therefore, when the area of the box is minimal, it indicated a closely spaced dataset, which in turn means precise data, i.e. lower uncertainty. Whereas a large area within the box represents spread data with large ranges between
the results, i.e. greater uncertainty. It should be considered that the amount of dust per site would vary; therefore, only the size of the box should be taken into consideration and not its position on the y-axis of the graph.

The area in which the test was conducted has a dust standard of 1,200 mg/m2 /day (NEMA: AQA, 2013). The margin of error was calculated to see if it is possible for the value of the reading to shift around this standard. That is, if the weight was just below or above the standard, would it be possible for the actual dust deposition to be above or below the standard, respectively. This confidence interval (Figures 5 and 6) indicates that for some of the samples with readings close to the standard it is possible for the result to provide a false exceedence or false conformance to the Standard.

The ASTM D1739–98 reported a standard deviation of 18% in the recovery measurements of water insoluble dustfall from Project Threshold (ASTM D1739–98. 1998), and that there was no link found between dustfall rate and reproducibility or repeatability. Repeatability and reproducibility was not conducted in this current study; however, it is aligned with the Project Threshold study. No link between the dustfall rate and repeatability (standard deviation) was found. The RSD was used to obtain an uncertainty for the entire process whereas Project Threshold reported on the laboratory component of dustfall monitoring only. The current study identifies environmental conditions that have a greater contribution to the calculated uncertainty of the method.


The dustfall rate for each group of four samplers per site was expected to have a low variability given that they were exposed to the same conditions. However, variation in the dustfall rate indicates some level of uncertainty. The results of this study show that there is uncertainty in the results from the dustfall samplers. Although some uncertainty could be attributed to sample handling, the majority is considered to be from environmental factors. The proximity of the four buckets on each stand could affect the flow pattern around these buckets and potentially affect the deposition into the bucket. For this study it was assumed that the effect each bucket has on the others is equal. Future work for this study will correlate the highest mass of the four buckets with the dominant wind direction.


Dust Monitoring Equipment – providing equipment, services and training in dust fallout management to the mining industry.

Dust Problems in Sun Valley Cape Town

Call for a better plan to manage dust fall

The Sun Valley Area is undergoing significant construction activity and road works.

Dust management plans to control the dust are important for all interested parties.

The lack of water is a challenge and the use of Chryso Eco Dust 200D can decrease the amount of water required to control the dust in an area.

Ligno Sulphate Information Chryso Eco Dust 200D

DustWatch can provide quotations for this product if required and also provide advice on optimized application for different area requirements.  Gravel Roads, Haul Roads, Unpaved open areas, Stockpiles and Berms.  On site advice is available for site specific requirements and optimization.

The application spreadsheet is available here if required.

Eco Dust 200D application

Eco Dust 200D application

Please contact DustWatch for more information.


Hope you enjoyed the read!  Have a great day.

Dust Monitoring Equipment – providing equipment, services and training in dust fallout management to the mining industry.

United States Environmental Protection Agency

On a recent visit to the States, Chris Loans came across this beautiful building…………..

United States Environmental Protection Agency

Dust Monitoring Equipment – providing equipment, services and training in dust fallout management to the mining industry.