Overview of Methods
In these experiments, the alum concentration is being varied to study how the change in alum dose affects the formation of the floc blanket and effluent turbidity. The experimental set up is the same as the one used in Spring 2009. From these results, the velocity gradient thresholds and effect of organic matter will be investigated with the intent to characterize the system in terms of tube settler efficiency.
Results and Discussion
Using the Spring 2009 team's methods, we subjected an ideal geometry to non-ideal conditions. Though the Spring 2009 team had success with a 9.5 mm diameter tube, due to a change in chemistry in the influent water during the summer or the addition of a flow accumulator to the method, we experienced failure with this geometry. We achieved an acceptable effluent turbidity (less than 1 NTU) with a 15.1??? mm diameter tube. With these results, we then subjected this tube settler to varying alum dosage to investigate the dependency of the performance of the tube settler on the alum dosage. At each alum dosage, the tube settler was tested at a variety of capture velocities and at two different floc blanket levels.
Experiment 1: Alum Dose = 45 mg/L
An alum dosage of 45 mg/L is considered to be ideal conditions. This preliminary data is the base for further. The graphs below show the effluent turbidity plotted against time for capture velocities of 5, 10, 15, and 20 m/day.