Yokogawa SC72 Personal Handheld Conductivity Meter User Manual

IM 12D03D02-01E

7-3

7. Measuring Principles of this Instrument

7.3 Temperature Compensation and Finding Temperature

Compensation Coefficient

• Temperature Compensation

Table 7.1 shows the conductivity ratio at each liquid temperature when the conductivity
of a NaCl solution at 25

؇C is 1.

Table 7.1

Conductivity Ratios at Different Temperatures in
NaCl solutions

T0701.EPS

0.542

1

1.531

0

؇

C

25

؇

C

50

؇

C

2.103

75

؇

C

2.677

100

؇

C

As shown in the above table, liquid conductivity changes with liquid temperature. So, in
order to compare conductivities, conductivity values at a fixed liquid temperature are
needed. This SC72 meter includes standard temperature conversion functions, to display
a liquid conductivity value converted to 25

؇C, so this meter can be used for such

conductivity measurement comparisons. Temperature compensation coefficients of an
NaCl solution are stored in the SC72 meter. No other temperature coefficient setting is
required (for NaCl solutions).

Table 7.2 shows temperature coefficients of various electrolytic solutions.

Table 7.2

Temperature Coefficients of Electrolytic Solutions

T0702.EPS

Solutions

Lithium benzoate solution

Sodium acetate solution

Potassium chloride solution

Sodium hydroxide solution

Sulfuric acid

---

2.20

1.74

1.74

1.07

2.28

2.20

---

---

---

2.28

2.20

1.98

1.87

1.38

Temperature coefficient (%/

؇

C)

1mol/l

1/10mol/l

1/1000mol/l

• Finding Temperature Coefficient

If temperature coefficient tables containing the liquid to be measured can not be found,
measure conductivity twice at two liquid temperatures between 10 and 30

؇C with

temperature coefficient set to 0.00 and use the equation shown below to find approximate
temperature coefficient (

␣).