Layering Foam
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Pelocity
Previous experiments have consisted of 10 inches of a single porosity of foam. We believe that by layering porosities, we can improve filter performance and increase run time. The idea is similar to a Rapid Sand Filter design in which anthracite (0.70 mm diameter) is layered on top of sand (0.45 mm diameter). Larger pore sizes are on the top of the filter, which capture large particles, and prevents a straining mechanism in the smaller pore sizes at the bottom of the filter. While we know the small porosity foam (larger pore size) will be on the top of the filter, we would like to determine the optimal number of one inch layers of each type of foam (30, 60, 90 ppi).
First, the team performed a control experiment with 60 ppi foam, 10 inch foam depth and a 1.5 mg/L alum dose to compare the layering results with.
Figure 1: 60 ppi, 10 inch, 1.5 mg/L
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Experimeng 1: 3 inches 90 ppi, 5 inches 60 ppi, 2 inches 30 ppi
Figure 2: pC* vs time
As shown above, the filter with just 60 ppi performed better than the layered filter. This was not what the team expected. Additionally, it should be noted that this experiment had to be manually shut off due to process controller issues. The effluent turbidity of the layered foam had not yet reached 1 NTU. Since we expected the layered foam to perform better than the 60 ppi foam, we suspect that air bubbles in the foam column during the layered experiment may have interfered with performance. The bubbles decreased the filter surface area, thus increasing the velocity through the foam, which decreases performance. This experiment must be re-run to either confirm or disprove this theory.