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Kayti's

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Spring 2010 Contributions

The main goals and production throughout the first half of the Spring 2010 semester have been on the creation and completion of the EPA P3 report and project proposal, as well as poster production and model development for this competition and several Cornell-based presentations. I have been actively involved in writing portions of the project proposal, contributing to the poster designs, and developing more rapid mix tube models for the EPA project presentation. I have also been actively communicating with Sarah Long, an AguaClara engineer working in Honduras, to complete the plant in Agalteca and adjust the design of the rapid mix tube and the rapid mix plate to control flow rate, mixing, and total head loss through the plant.
The second half of the Spring 2010 semester was focused in the production of the scaled Rapid Mix Tube for the EPA P3 competition, as well as the continued modification of the rapid mix micro scale orifice mixing plate design for the newest plant in Agalteca. Adjustments were made to the design based on flow rates and observed head losses through the plant, then incorporated into a new MathCAD file to calculate the number of total orifices needed in the plate as well as the variation of energy dissipation rates for different flow rates. Investigation into the optimization of maintaining the target energy dissipation rate for varying flow rates will continue for the remainder of the semester and is suggested as a continuing goal for next year's team.

Fall 2009 Contributions

My main focus throughout the Fall 2009 semester with the Chemical Dose Controller Team has been the development and design of a rapid mix tube system for the Agalteca plant. The system developed this semester can also be modified and applied to future AguaClara plants to provide rapid mix of dosed aluminum sulfate with the raw water source. A drawing of the entire system can be viewed here. My work this semester has mainly focused on designing this current rapid mix tube system, calculating the head losses experienced through the system and the pipes leading the water to the flocculation tank, and calculating orifice sizes and tube lengths and diameters. All of these calculations were done in a MathCAD file detailing the design process and specifications for the system. I have also worked on designing a system to deliver alum to the center of the tube to allow for an even distribution of chemical across the pipe and small-scale mixing orifices, which is crucial for adequate mixing. A preliminary schematic for a prototype was proposed and constructed towards the end of the semester. Future work to be conducted over winter break and in the spring semester will consist of experiments testing the effectiveness and necessity of rapid mix in the AguaClara systems. I have developed a preliminary experimental design for these tests, and will need to meet with the tube flocculator team to gain more specifications for running the FReTA testing apparatus.

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