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Current Research

Semester Goals:

1. Determine a range of influent water turbidities the clay pot can remove for <5 NTU
2. Determine if the rate of water flow through the pot decreases with successive experiments or influent turbidities
3. Determine if the treatment of a lower influent turbidity water is compromised because a higher influent turbidity water was treated before

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Experiment

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Background flow rate
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Determine the clay pots initial flow rate (background flow rate) with clean water
1. Fill the pot with Ithaca Tap water
2. Measure the volume of water that seeps out in the first 15 minutes, 30 minutes, 1 hour, and hour increments until the pot is empty.

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Cleaning Directions
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Determine if the Manufacturer's cleaning directions are accurate
1. Mix a clay solution of 100 NTU
2. Allow the solution to run through the pot
3. Repeat steps 1-2 several times to build a nice coating of clay on the inside
4. Clean the pot according to the directions provided by the manufacturer
5. Allow a ithaca tap water solution to run through the pot
6. Measure the effluent turbidity at 15 minute increments for one hour.

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Turbidity Removal
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Determine the range of influent water turbidities the clay pot can remove

1. Mix a clay solution of 10 NTU
2. Allow the solution to run through the pot
3. Measure the volume of water that seeps out in the first 15 minutes, 30 minutes, 1 hour, and hour increments until the pot is empty
4. Measure the Turbidity of the effluent water at each of these time intervals
5. Clean the pot according to the directions provided by the manufacturer
6. Repeate 1-5 for influent turbidities of 25 NTU, 50 NTU, 75 NTU, 100 NTU, 125 NTU

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Changes in Flow Rate
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Flow rate or Effluent Turbidity changes over time due to continuous use of high turbidity

1. Mix a clay solution of 100 NTU
2. Allow the solution to run through the pot
3. Measure the volume of the water that seeps out in the first 15 minutes, 30 minutes, 1 hour, and hour increments until the pot is empty
4. Measure the turbidity of the effluent water at the same time intervals as step 3
5. Repeat steps 1-4 several times

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