LaMotte MULTI-RANGE CONDUCTIVITY METER DA-1 1929 User Manual

CONVERSION TABLE FOR
CHANGING CONDUCTIVITY* INTO SALINITY
If the temperature compensation knob was set to the sample temperature
when the conductivity reading was recorded, use the 25°C column to
receive the results as ppt salinity.
If temperature compensation was not used when you recorded the
conductivity reading (the temperature knob was set to 25°C), use the
column that reflects the actual sample temperature to receive results as ppt
salinity.

CONDUCTIVITY

SALINITY

0°C

5°C

10°C

15°C

20°C

25°C

30°C

0

00

1,200

1,400

1,500

1,700

2,000

2,200

2,400

1

2,220

2,500

2,900

3,300

3,700

4,100

4,500

2

3,200

3,700

4,200

4,700

5,300

5,900

6,500

3

4,100

4,700

5,400

6,100

6,900

7,600

8,400

4

5,000

5,800

6,600

7,500

8,400

9,300

10,300

5

5,900

6,800

7,900

8,800

9,900

11,000

12,100

6

6,700

7,800

8,900

10,100

11,300

12,600

13,900

7

7,600

8,800

10,100

11,400

12,800

14,200

15,700

8

8,500

9,800

11,200

12,700

14,200

15,800

17,400

9

9,300

10,800

12,300

13,900

15,600

17,300

19,100

10

10,200

11,800

13,400

15,200

17,000

18,900

20,800

11

11,000

12,800

14,500

16,400

18,900

20,400

22,500

12

11,900

13,700

15,600

17,600

19,700

21,900

24,100

13

12,600

14,600

16,700

18,900

21,100

23,400

25,800

14

13,400

15,600

17,800

20,100

22,400

24,900

27,400

15

14,200

16,400

18,800

21,200

23,800

26,400

29,100

16

15,000

17,400

19,800

22,400

25,100

27,800

30,700

17

15,800

18,300

20,900

23,600

26,400

29,300

32,300

18

16,600

14,200

21,900

24,800

27,700

30,700

33,900

19

17,400

20,100

23,000

25,900

29,000

32,200

35,500

20

18,200

21,100

24,000

27,100

30,300

33,600

37,000

21

19,000

22,000

25,100

28,300

31,600

35,000

38,600

22

19,800

22,900

26,100

29,400

32,900

36,500

40,100

23

20,600

23,800

27,100

30,600

34,200

37,900

41,700

24

21,400

24,700

28,100

31,700

35,400

39,300

43,200

25

22,100

25,500

29,100

32,800

36,700

40,700

44,800

26

22,800

26,400

30,100

33,900

37,900

42,100

46,300

27

*Conductivity values are given in micromhos/cm.

8

5.

Measure the temperature of the sample solution, set the “TEMP”
knob at the mark indicating the temperature. (Note the markings are
in centigrade.) Temperature has a pronounced effect upon
conductivity, and must be monitored accurately.

6.

Immerse the probe into at least ½" of solution. Make sure all bubbles
are removed from the probe.

7.

Switch the control knob to the “ON ” position and the range selector
to either “X1,” “X10,” “X100,” or “X1000.” Read the conductivity
directly from the meter face. For the best accuracy, select the range
which gives readings as close to mid-range of the scale as possible.
Multiply the reading from the meter face by the appropriate factor.
The probe should not be in contact with any surface other than the
solution being tested.

8.

After completing the conductivity measurement, switch control knob
to the “OFF” position. Rinse the probe thoroughly with water,
preferably distilled water, and drain.

9.

Reference solutions which have known conductivities may be
prepared by consulting the latest edition of Standard Methods for the
Examination of Water and Wastewater, American Public Health
Association, 1015 East Eighteenth Street, NW, Washington, DC
20036. A series of accurately prepared reference solutions in both the
high range and low range allow the operator to check on the
manipulative procedure as well as the verification of results.

DETERMINATION OF CONDUCTIVITY & TDS
IN BOILER WATER
In boiler water where high concentrations of hydroxides may be evident, it
is necessary to neutralize the sample solution with gallic acid or lactic acid.
Otherwise high conductivities will be noted. For a 100 mL sample add 0.4
grams of gallic acid or lactic acid. This will neutralize approximately 1300
ppm hydroxide alkalinity. If a small amount of gallic acid or lactic acid
does not dissolve within the sample solution, the conductivity reading will
not be affected. On some highly alkaline waters higher concentrations of
gallic acid or lactic acid may be required.
The determination of conductivity for boiler water is made by following
the General Operating Procedure given on page 4. To convert the
conductivity reading to parts per million Total Dissolved Solids (ppm
TDS), multiply the reading by 0.7.
EX AM PLE:

Conductivity reading is 3500 micromhos/cm

3500 x 0.7 = 2450 ppm TDS

5