Marlana's Individual Contribution Page
Summer 2012 Contributions
During the summer of 2012, I worked on creating an LFOM orifice template to be used on-site in facilitating precise drilling of orifices during LFOM fabrication. The rendering of the template in AutoCAD is automated with input parameters of plant flow rate and head loss in the LFOM. Significant work was done on the template by the end of the summer, and it was later completed by other members of the design team. In addition, preliminary work began on generating a scale for the LFOM, Chemical Dose Controller, and Calibration Column with a general algorithm that input parameters such as scale range, scale length, tick length, font size, and scale orientation.
Spring 2013 Contributions
This semester, I worked on the Sedimentation Tank Hydraulics Team. We made a lot of great progress during the semester that included (1) changing the bottom geometry of the sedimentation tank, (2) switching to using PACl and finding the optimum dosage (5 mg/L), (3) exploring the relationship between energy dissipation rate in the jet diffuser and floc blanket performance, and (4) learning about the influence of floc hopper depth on sludge consolidation. We also ran a dye test to better understand the flow of water and colloids through the floc blanket (videos of this dye test can be found on the AguaClara YouTube channel). We found that even at high energy dissipation rates (130 mW/kg), there was improvement in performance over blankets created with lower energy dissipation rates. In addition, we discovered that compression settling occurs in the floc hopper, contrary to our hypothesis that only zone settling was occurring. The dye test showed that while there is evidence showing a slightly preferential flow path through the blanket, the blanket does become uniform and models a PFR as fluid moves through the upper portions. It was a semester filled with lots of hard work and late nights in the lab, but the significance of our findings made it worth all the while.