LaMotte LTC3000wi Turbidity & Chlorine Lab Meter User Manual

for wiping a fi lled tube before placing it in the meter chamber. Invert

tube very slowly and gently three times to mix the sample. Surround

the tube with a clean, lint-free cloth. Press the cloth around the tube.

Rotate the tube in the cloth three times to assure that all areas of the

tube have been wiped.

5. Discard tubes that have signifi cant scratches and imperfections in

the light pass zones. (Central zone between bottom and fi ll line).

6. When reading very low turbidity samples, do not use tubes or caps

that have been used previously with high turbidity samples.

7. Use the averaging option for low level measurements of turbidity.
8. The meter should be placed on a surface that is free from vibrations.

Vibrations can cause high readings.

9. Turbidity readings will be affected by electric fi elds around motors.
10. Carbon in the sample will absorb light and cause low readings.
11. Excessive color in a sample will absorb light and cause low

readings. The user should verify if a certain level of color will cause a

signifi cant error at the level of turbidity being tested.

12. Observe shelf life recommendations for turbidity standards.
13. Do not use silicone oil on tubes when testing turbidity with the

LTC3000we/wi.

14. When testing at low concentrations use the same tube for the blank

and the sample.

15. Always insert tube into the meter chamber with the same amount of

pressure and to the same depth.

16. Occasionally clean the chamber with a damp lint-free wipe, followed

by a Windex

®

dampened wipe. A clean chamber and tubes are

essential for reliable results.

17. For the greatest accuracy during the calibration procedure, be

sure that after the meter is blanked and the blank is scanned as

a sample, the reading is 0.00. If not, reblank the meter and scan

the blank again until it reads 0.00. When scanning the calibration

standards as the sample, scan the calibration standard three times

removing the tube from the chamber after each scan. The readings

should be consistent. Use the last consistent reading to calibrate

the meter. If the readings are not consistent, avoid using an aberrant

reading to calibrate the meter.

18. Calibrate the meter daily.
19. Calibrate the meter with a standard that is closest to the expected

range of the sample being tested. For example, if the sample

is expected to be less than 1.0 NTU, calibrate with a 1.0 NTU

standard and a blank (0 NTU standard). If the sample is expected

to be around 2 NTU also calibrate with the 1.0 NTU standard but

if the sample is expected to be around 8 NTU calibrate with a 10

NTU standard. If the sample is expected to be over 30 – 40 NTU

it is recommended that the meter be calibrated with a 100 NTU

standard.

53

Turbidity Analysis