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Fluoride contamination of groundwater is a major, well-known health concern, that still does not have any highly effective or sustainable technologies to remedy it. The World Health Organization suggest suggests the Nalgonda method, but this techniques technique has several major flaws including a treatment efficiency that is limited to only 70 percent, and a large dose of aluminum sulfate, which causes sludge disposal problems. Instead, we intend on using use Polyaluminum Chloride (PACl) as a coagulant to which the fluoride can both adsorb to and coprecipitate with. Our objective for this semester is to build the physical system with a sand filter to trap the coagulant and being the adsorption and coprecipitation. 

Excerpt

The goals of the Fluoride Team is to design and create the optimal system for adsorbing and coprecipitating out fluoride from groundwater.

Goals

The overall objective for the Spring 2015 team are to design and build the physical filtering system that will trap the fluoride from the groundwater flow. With this system, we plan to develop a measurement technique that can be connected to ProCoDa that will give us real time performance of the fluoride removal. Once we have the system built, we will develop a method to contaminate water with fluoride to a level comparable to groundwater. Once we have done this, we will design a sand column experiment that will help us find the optimal PACl dosage for fluoride removal. Finally, we will determine the best disposal methods for contaminated waste that is generated by experimentation.Fall 2015 subteam hopes to find the dosage of PACl required to optimally remove fluoride from groundwater. By quickly redeveloping our physical filtration system and setting up Process Controller, we hope to spend the bulk of our semester experimenting with varying levels of Fluoride and PACl, analyzing our work, and trouble-shooting our system.

The Spring 2016 subteam will be preparing for the EPA P3 competition in April. The primary goals of the semester are to test out the optimal levels of PACl needed to remove fluoride at different in flow concentrations. Additionally, the maximum time that system can be run will be obtained by analyzing data from the pressure sensors.

The Fall 2016 subteam will be fabricating and evaluating new bottom inserts to the filtration system, including one with a reverse jet. Once all tests have been conducted and the most efficient removal system has been determined, the team will evaluate whether or not clay is a necessary component of fluoride removal.

The Spring 2017 subteam will be determining if countercurrent floc blanket reactors should be used instead of a single floc blanket reactor for field testing. Both systems will be tested for a wide range of upflow velocities to optimize red dye #40 removal efficiency. Subsequently, a 0.1 L/s (approximately) reactor will be designed and fabricated for future testing.

 

More Information

Section
Column
Current Members

Katie Dao

Pooja Desai

Michelle Cheng

Auggie Longo

Briana Vidal

Victoria Zhang

 

Email Team

Column
Documents
 Fall 2015 

 

Challenges

Tasks

Symposium

Final Presentation

Final Report

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