Hanna Instruments HI 4521 User Manual

57

• Press

to change the desired method parameters as indicated in the first step of the method.

• Press

to take the second mV reading.

• When the reading is stable, press

to store the second mV reading. The ISE measurement

results will be displayed on the LCD.

• Press

to log the current results into a ISE Method Report or press

to return to

ISE Measure mode.

• If pressing

, the method parameters can be changed and the sample concentration will be recalculated.

• Press

to start another measurement.

Note: Press

at any time to stop the measurement and return to

ISE Measure mode.

KNOWN SUBTRACTION

To measure the concentration of a sample using the Known Subtraction incremental method:

• Press

and then

to select

ISE Measure mode for the selected channel.

• Select the Known Subtraction method (see

ISE Setup for details).

• Press

to start the measurement. The first step of the method will be displayed on the LCD in which the

user is notified to add the appropriate ISA Buffer Volume (if different from 0 mL) to the sample and to immerse
the electrode into the Sample Volume. The method parameters are also displayed on the LCD.

• Press

to set the method parameters. Press

/

to select next / previous

parameter to be edit, then press

and use

or

to set the desired parameter

value. Press

to save the modified value and then press

to exit method parameters edit

menu.

Note: For the Known Subtraction method, the stoichiometric ratio (factor) between standard and sample

must also be set in order to take accurate measurements.

• Make sure that the set parameters values are the used ones and submerge the Ion Selective Electrode tip

approximately 4 cm (1½”) into the sample to be tested.

• Press

to take the first mV reading.

• When the reading is stable, press

to store the first mV reading. The second step of the method

will be displayed on the LCD in which the user is notified to add the Standard Volume of set concentration
to the sample. The method parameters are also displayed on the LCD.

• Press

to change the desired method parameters as indicated in the first step of the method.

• Press

to take the second mV reading.

• When the reading is stable, press

to store the second mV reading. The ISE measurement

60

ISE THEORY

ISE THEORY

ISE THEORY

ISE THEORY

ISE THEORY

An Ion Selective Electrode (ISE) is an electrochemical sensor that changes voltage with the activity or concentration
of ions in solutions. The change in voltage is a logarithmic relationship with concentration and is expressed by the
Nernst equation:

where: E - the measured voltage;

E

o

- standard voltage and other standard system voltages;

a - the activity of the ion being measured;
S - the Nernst slope factor and is derived from thermodynamic principles:

R - the universal gas constant (8.314 J*K

-1

*mol

-1

);

T - the temperature in degrees Kelvin;
F - the Faraday’s constant (96,485 C*mol

-1

);

n - the ion charge.

The slope may be positive or negative depending upon the ion charge (n).

Activity and concentration are related by an “activity coefficient”, expressed as:

where: a - the activity of the ion being measured;

- the activity coefficient;

C - the concentration of the ion being measured.

In very dilute solutions approaches 1 so activity and concentration are the same.

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