Nadia Shebaro's Individual Contribution Page
Spring 2015 Contributions
This semester I am a member of the StaRS Filter Injection and Extraction team. Our primary goal for the semester is to fabricate a to-scale model filter with newly configured inlet and outlet pipes in order to test the principle of gravity exclusion as a method of keeping sand from entering the piping without having holes or slots that are small enough to be susceptible to clogging. We also will work to determine the head loss through the filter that is associated with the new configuration and determine how this impacts the ability to fluidize the bed and properly backwash.
Summer 2014 Contributions
In summer 2014, I am was a member of the laminar/turbulent tube flocculation team.
For the laminar tube flocculator, this semester we will be implementing implemented a system to better control the dosage of clay to the reactor, in order to maintain a constant and appropriate turbidity, as well as a system to control the addition of hot and cold water into the stock water tank, in order to maintain a temperature in the reactor that is was relatively equal to the ambient temperature. We will also implement a system that uses pressure sensors throughout the flocculator to get a better measurement of the head loss. Once these those systems are in place, we will ensure that tested the SWaT system is functioning correctly and that flocs are settling out, and then experimentation will be done to see how it functions and if flocs settle out in the tubing as expected. Finally, we began experimentation with different coagulant concentrations, in order to test the effectiveness and function of the laminar tube flocculator, and these results were compared to previous testing with a different setup.
For the turbulent tube flocculator, we will worked to determine the flow rate and head loss throughout the system in order to better understand how the flocculator functions and to determine how the flocs are settling settle out. We will also looked to improve the existing system of controlling the water temperature, seeking to maintain a temperature that is constantly equivalent to the ambient temperature. Testing will was also be done to determine the best way to meter clay into the system , and we will look to implement and whether or not PID control can be used in order to maintain a constant turbidity in the reactor. Once the system is functioning correctly, experimentation can be done to determine how the flocculator functions with various turbidities, coagulant doses, residence times, and flow rates.
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