Myron L 9PTK with FCE Free Chlorine User Manual

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same reference is used for both the pH and the ORP sensors. Both

pH and ORP will indicate 0 for a neutral solution. Calibration at zero

compensates for error in the reference junction.

A zero calibration solution for ORP is not practical, so the Ultrameter III

uses the offset value determined during calibration to 7 in pH calibration

(pH 7 = 0 mV). Sensitivity of the ORP surface is fixed, so there is no gain

adjustment either.

5. Sources of Error

The basics are presented in pH and ORP/Free Chlorine, pg. 64, because

sources of error are much the same as for pH. The junction side is the

same, and though the platinum surface will not break like the glass pH

surface, its protective glass sleeve can be broken. A surface film will

slow the response time and diminish sensitivity. It can be cleaned off

with detergent or acid, as with the pH glass.

C. Free Chlorine

1. Free Chlorine as an Indicator

Chlorine, which kills bacteria by way of its power as an oxidizing agent,

is the most popular germicide used in water treatment. Chlorine is not

only used as a primary disinfectant, but also to establish a sufficient

residual level of Free Available Chlorine (FAC) for ongoing disinfection.

FAC is the chlorine that remains after a certain amount is consumed by

killing bacteria or reacting with other organic (ammonia, fecal matter) or

inorganic (metals, dissolved CO

2

, Carbonates, etc) chemicals in solution.

Measuring the amount of residual free chlorine in treated water is a well

accepted method for determining its effectiveness in microbial control.

The Myron L Company FC

E

method for measuring residual disinfecting

power is based on ORP, the specific chemical attribute of chlorine (and

other oxidizing germicides) that kills bacteria and microbes.

2. Free Chlorine Units

The 9P is the first handheld device to detect free chlorine directly,

by measuring ORP. The ORP value is converted to a concentration

reading (ppm) using a conversion table developed by Myron L Company

through a series of experiments that precisely controlled chlorine levels

and excluded interferants.

Other test methods typically rely on the user visually or digitally

interpreting a color change resulting from an added reagent-dye. The

reagent used radically alters the samples pH and converts the various

chlorine species present into a single, easily measured species. This

ignores the effect of changing pH on free chlorine effectiveness and

disregards the fact that some chlorine species are better or worse