3 calibration example, 4 grab sample calibration – Teledyne LXT-280 User Manual

Dissolved Oxygen Transmitter

Calibration Correction

Teledyne Analytical Instruments

35

5.3 Calibration Example

As an example of a ppm calibration, assume a dissolved oxygen

application where the sample temperature is 30°C at an elevation of
1,500 feet. The calibration is being performed in the sample which is a
brine having a salinity value of 6 ppt.

1. Determine the oxygen saturation in ppm at 30°C from Table 5-1.

This value is 7.63 ppm.

2. Determine the relative humidity correction factor (CF

RH

) from

Table 5-2. Because the calibration is being performed in the
sample, a relative humidity of 100% is assumed. At a relative
humidity of 100% and a temperature of 30°C, the relative
humidity correction factor is 0.958.

3. Determine the elevation correction factor (CF

E

) from Table 5-3.

At 1,500 feet, the elevation correction factor is 0.947.

4. Determine the salinity correction factor (CF

S

) from Table 5-4. At

6 ppt, the salinity correction factor is 0.94.

5. Calculate the corrected ppm value as follows:

Corrected ppm = oxygen saturation x CF

RH

x CF

E

x CF

s

Using the data from the tables,

Corrected ppm = 7.63 ppm x 0.958 x 0.947 x 0.94

Corrected ppm = 6.51

5.4 Grab Sample Calibration

In some cases, calibration to a grab sample is desired. If so, the

sensor can be compared to a sample that has been analyzed through a
wet chemical process (Winkler analysis) or by using a laboratory
electrode. After determining the dissolved oxygen concentration by one
of these methods, the SP-1 or SP-2 can be standardized to that value.