Myron L 9PTK User Manual

66

XXiv. alKalinity, harDness anD lsi FUnctiOns

A. Alkalinity and Hardness Titrations

The 9P uses a conductometric method of titration. This means that

instead of measuring a color or pH change, it measures the change in

conductivity when reagent is added. The way the sample solution behaves

is compared to the behavior of solutions of known alkalinity or hardness

under the same conditions. The equivalence point is determined from

the known data curve that best matches the experimental data.

B. Langelier Saturation Index

The LSI calculator and titration functions use a calcium carbonate

saturation index algorithm developed by Dr. Wilfred Langelier in 1936:

SI = PH + TF + CF + AF – 12.1

Where:

PH = pH value

TF = 0.0117 x Temperature value – 0.4116

CF = 0.4341 x ln(Hardness value) – 0.3926

AF = 0.4341 x ln(Alkalinity value) – 0.0074

The following is a general industry guideline for interpreting LSI values:

• An index between -0.5 and +0.5 indicates balanced water

• An index of more than +0.5 indicates scale-forming water

• An index below -0.5 indicates corrosive water

You can use the calculator to adjust any of the water balance

parameter variables used in the calculation to analyze the effect of the

change on water balance.

The LSI titration function generates an accurate saturation index value

that indicates the state of the system at the time the calculation is

made.

C. Hardness Units

nOte: The 9P MUST be in the HARDNESS FUNCTION or the

hardness screen (“hrd”) in LSI CALCULATOR or LSI TITRATION

mode for hardness unit preference selection.

The hardness unit preference is set simultaneously for all three

functions that capture a hardness value. That means when you set the

preference in one function, it is set for the other two functions at the

same time.