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The floc blanket formed for this alum dose unexpectedly performed well. This dosage is an extreme underdose, and this experiment was run was supposed to demonstrate failure due to alum underdose, which was not achieved.
The reason that this dosage was successful is that the floc blanket was still able to form. An underdosed system forms flocs that are smaller, which creates a floc blanket that is more dense. As a result of the smaller flocs, the floc blanket takes more time to form since more flocs are required to fill the space in the tank. From the graph, it is clear that the floc blanket was not fully formed in the beginning of the 0.058 mm/sec capture velocity, because the effluent turbidity has a high spike. However, the turbidity ultimately falls back within the acceptable range. This can be interpreted as the point at which the floc blanket is completely formed. Thus, as a result of this observation, it is clear that once the floc blanket is formed, regardless of the alum dosage, the ultimate effluent turbidity is relatively the same. From this, we can conclude that as soon This shows that a low effluent turbidity can be achieved with a low alum dose as long as the floc blanket is sufficiently formed, which will occur more quickly with a higher alum dose, the dosage can be lowered. This conclusion forms, which is significant because the overall amount of alum needed to treat the water can be reduced.