In late 2020, five solar-powered Soil Sense units were installed at the site including 1 background location, 2 on the plume fringe and 2 within the plume.
The strategy for placement of the Soil Sense was to capture areas of high and low benzene concentrations.
Soil Sense units make use of concentration gradient methodology with the sensor packs being installed above the LNAPL plume at depths of 3, 5 and 6 m bgs.
The Soil Sense, a proprietary technology, uses three solid state sensor packs installed at different depths to measure:
- Hydrocarbon vapours;
- Carbon dioxide; and
The data is collected from the Soil Sense at 30-minute intervals 365 days a year and can be incorporated into site-wide estimates of Natural Source Zone Depletion and Plume Stability. This allows site managers remote insight into remedial progress without having to step foot on-site.
Initial estimates indicated an average site-wide NSZD rate of 0.13 grams per square metre per day (g/m2/d) (Figure 1) with an approximate mass reduction of 15 kilograms per year (kg/yr). The highest NSZD rates were situated within the plume source (location 3).
Comparison to Traditional NSZD Methods
A comparison to traditional NSZD methods (Closed Chamber and E-Flux traps) suggested the Soil Sense units were within the NSZD range (Figure 2). The closed chamber results, while showing lower rates, tend to correlate with the plume areas and our Soil Sense units. Further, the E-Flux results at location 5 correlate to a high degree with the high end of the range for our Soil Sense units.
The flux trap at location 3 had a non-detect. This result is anomalous and could have resulted for several reasons but highlights the importance of real time data so that in the event a Soil Sense unit fails it’s identified right away and can be fixed immediately.