Yokogawa FU24F User Manual

IM 12B6J8-01E-E

15

6.2 Calibration for ORP and rH measurement

For calibration of ORP and rH, the procedure for MANUAL CALIBRATION can be used as

described in the Instruction Manual of the FLXA analyzer.

The rH value is a function of the reference system and the pH value of the buffer solution.

The FU24F sensor has a reference system of saturated Silver/Silver Chloride (Ag/AgCl).

The commonly used standards for ORP and rH calibration are made from Chinhydron

(Quinhydrone) powder dissolved in pH buffer solutions (1 g / 200 ml). In Table 4 the

measurement values are given as function of the used pH buffer solution with Chinhydron

powder. The accuracy of the standards is approximately ± 10 mV.

Table 4: ORP, pH compensated ORP and rH as function of pH buffer solution with

Chinhydron powder.

pH buffer

ORP (mV)

pH compensated ORP (mV)

rH

1.68 403

88

23.6

4.01 265

88

23.6

6.87 96

88 23.6

7.00 88

88 23.6

6.3 Maintenance of the FU24F sensor

A pH sensor requires routine maintenance to keep the measuring elements clean and

functioning. Depending on the process, different cleaning solutions may be required.

Avoid cleaning the complete sensor with solution. Some cleaning solutions will

damage the modelcode sticker and connector which are placed on the electronic

housing on top of the sensor. Only clean the measuring elements at the bottom

side of the sensor.

In most cases cleaning with water, iso-propanol or methanol is sufficient. In other cases the

measuring elements of the sensor have to be cleaned with specific solutions.

Examples:

1. Deposits of limes, hydroxides or carbonates can be removed by immersing the bottom

part of the sensor in a solution containing dilute hydrochloric acid (5% is recommended).

Afterwards rinse the sensor with water.

2. Deposits of oil and fat can be removed with hot water with a detergent. When the results

are unsatisfactory, a mild (carbonate based) abrasive can be used.

3. Protein deposits should be removed with a protein enzymatic solution, for instance a

solution containing 8.5 mL concentrated hydrochloric acid and 10 grams of pepsin in

1 liter of water.

Note: Avoid cleaning with non-polar solvents like tri-chloro ethylene, toluene or hexane. The

non-polar solvents will break up the gel-layer on the pH glass bulb and requires that

the sensor has to be soaked in water for at least 12 hours before it will function again.

The Teflon diaphragm of the sensor can be regenerated by putting it in hot (± 70°C, 158°F)

3 molar Potassium Chloride (KCl) solution and letting it cool down to room temperature. This

procedure clears the diaphragm and will soak the diaphragm with conductive KCl again.