LaMotte SMART Spectro Spectrophotometer User Manual

SMART Spectro Operator’s Manual 2.11

17

which is in the concentration range for the test, is obtained. Be sure to multiply

the concentration found by the dilution factor (the number of total 10 mL

volumes used).
Example:
10 mL of sample is diluted with three 10 mL volumes of demineralized water; the

dilution factor is four.

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INTERFERENCES

LaMotte reagent systems are designed to minimize most common interferences.

Each individual test instruction discusses interferences unique to that test. Be

aware of possible interferences in the water being tested.
The reagent systems also contain buffers to adjust the water sample to the ideal

pH for the reaction. It is possible that the buffer capacity of the water sample

may exceed the buffer capacity of the reagent system and the ideal pH will not

be obtained. If this is suspected, measure the pH of a reacted distilled water

reagent blank using a pH meter. This is the ideal pH for the test. Measure the pH

of a reacted water sample using the pH meter. If the pH is signifi cantly different

from the ideal value, the pH of the sample should be adjusted before testing.
Chlorine interferences can be removed with the use of glycine. Very high levels

of chloramines may interfere if the test result is not read immediately. Oxidized

manganese interferes but can be removed with arsenite. Bromine and iodine

interferes but can be removed with a thioacetamide blank correction.
Interferences due to high concentration of the substance being tested, can be

overcome by sample dilution (see page 16).



STRAY LIGHT INTERFERENCE

Normal indoor lighting causes no interference with the SMART. Always be sure

the sample chamber lid is closed when scanning blanks or samples.