The evolution of the Plate Settler Spacing Team could be traced back to Summer 2008. Here is the overview of the past research work done by the PSS teams:
This page details the continued approach taken to differentiate the effects of velocity gradients from capture velocity for different tube diameter and lengths.
This page details the approach taken to differentiate the effects of velocity gradients from capture velocity for different tube diameter and lengths. This approach proved successful and subsequent experiments are based on these calculations
This page details the initial approach taken by the team to design an experiment that would test floc roll-up. The team held the geometric similarity between tubes of different diameters in order to explore changes in residual turbidity caused by the capture velocity and velocity gradient.
This section contains the experiment run in collaboration with the Floating Floc team to test the effect of saturated water in the influent on the plate settler performance.
This section contains the model derived to estimate floc roll up in relation to particle size and velocity. Also, experiments were run to collect data to support the model.
This section contains experiments testing the effect of natural organic matter (humic acid) on the plate settler performance.
This section contains the experiments in which the alum dose was varied in order to test how well the selected geometry (d = 15.1mm) performed when subjected to non-ideal conditions
The team has conducted physical modeling of the system to investigate the phenomenon of floc roll-up.
In current plant designs, head loss through the entrance ports in the sedimentation tank is much greater than the head loss from flow through the plate settlers. Because head loss through the ports is much greater than head loss through the plate settlers, flow through each of the plate settlers in plants in Honduras is not equal. A geotextile foam was placed on top of the plate settler to create head loss to equalize the flow.
This section contains two related experiments. The first experiment varies flow rates and the inner diameter of the tube settler. From these results, the ideal L/d ratio is identified and held constant for a certain flow rate and inner diameter by varying the tube length.
Experiments exploring the rate of formation and density of floc blankets.
This section contains preliminary observations and data that preceded the experiments run during spring 2009, above.
These early experiments explored the impact of the diameter of tube settlers on effluent turbidity. Tube settlers were modeled using drinking straws.