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Econ FP
PRE-PROGRAMMING REQUIREMENTS
Common Chemical Solution Strengths in ppm
Name
%
ppm
Sodium Hypochlorite
5.25
52,500
6.125
61,250
12.5
125,000
Potassium Permanganate Dissolved at 1/4 lb per gallon
3
30,000
Hydrogen Peroxide
7
70,000
Polyphosphate Dissolved at 1 lb per 10 gallons
1.2
12,000
A.
Determine the
Maximum System Flow Rate
or
Well Pump Flow Rate in Gallons
per Minute.
If well pump output is unknown, refer to example below:
Calculate well pump output rate in gallons per minute (gpm).
Determine the output rate by opening a faucet until the well pump turns on.
Immediately turn off the faucet and time how long the well pump runs. Next, measure
the volume of water drawn from the faucet until the well pump turns on again.
volume of water until the pump turns on (gal.)
=
Well Pump Output Rate (gpm)
how long the pump runs (min.)
B.
Determine
Solution Strength Percentage
and the
Dosage Requirement in Parts
per Million.
If dosage is unknown, refer to example below:
Calculate required dosage in parts per million (ppm).
Refer to Oxidation Rates below. Estimate dosage and include the ppm of
required residual.
Oxidation Rates
For each ppm of
Iron
Manganese
Hydrogen Sulfide
Required ppm of
Chlorine
1
2
3
Required ppm of
Hydrogen Peroxide
0.5
1
1.5
Before programming the pump, collect or calculate the data in steps A through D then
continue with the instructions for the Seconds, Auxiliary or Flow Switch mode.
2 ppm iron x 1 ppm chlorine = 2
4 ppm hydrogen sulfide x 3 ppm chlorine = 12
1 ppm chlorine residual = 1
Total 2 + 12 + 1 = 15 ppm
Example: To treat a water supply containing
2 ppm iron and 4 ppm hydrogen sulfide
with a chlorine residual of 1 ppm, a dosage
15 ppm of chlorine is required.
10 gallons
= 5 gpm
2 minutes
Example: After drawing 10 gallons of water,
the well pump took 2 minutes to fill the
pressure tank and stop.
