LaMotte LTC3000wi Turbidity & Chlorine Lab Meter User Manual

Two visual methods are the Secchi Disk method and the Jackson

Candle method. The Secchi Disk method is often used in natural waters.

A black and white Secchi Disk is lowered into the water until it can no

longer be seen. It is then raised until it can be seen again. The average

of these two distances is known as the “Secchi Depth”. The Jackson

Candle method uses a long glass tube over a standard candle. Water

is added or removed from the tube until the candle fl ame becomes

indistinct. The depth of the water measured with a calibrated scale is

reported as Jackson Turbidity Units (JTU). The lowest turbidity that

can be determined with this method is about 25 NTU. There are two

common methods for instruments to measure turbidity. Instruments

can measure the attenuation of a light beam passing through a

sample and they can measure the scattered light from a light beam

passing through a sample. In the attenuation method, the intensity

of a light beam passing through a turbid sample is compared with

the intensity passing through a turbidity-free sample at 180° from the

light source. This method is good for highly turbid samples. The most

common instrument for measuring scattered light in a water sample is

a nephelometer. A nephelometer measures light scattered at 90° to the

light beam. Light scattered at other angles may also be measured, but

the 90° angle defi nes a nephelometric measurement. The light source

for nephelometric measurements can be one of two types to meet EPA

or ISO specifi cations. The EPA specifi es a tungsten lamp with a color

temperature of 2,200–3,000 K. The units of measurement for the EPA

method are nephelometric turbidity units (NTU). The ISO specifi es a light

emitting diode (LED) with a wavelength of 860 ± 30 nm and a spectral

bandwidth less than or equal to 60 nm. The units of measurement for the

ISO method are formazin nephelometric units (FNU). The LTC3000we

meets the EPA specifi cation and the LTC3000wi meets the ISO

specifi cation. The nephelometric method is most useful for low turbidity.
The LTC3000we/wi is a nephelometer that is capable of measuring

turbidity by both the attenuation method and the nephelometric method.

It uses a detector placed at 180° to the light source for high turbidity

samples. It uses a detector placed at 90° to the light source for the

nephelometric method for low turbidity samples. The LTC3000we/wi

has a signal averaging option to improve the stability of readings on low

turbidity samples.
The LTC3000we/wi has two different turbidity calibrations, formazin and

Japan Standard. The formazin calibration is the EPA and ISO approved

method of calibrating nephelometers. This calibration can be used with

user prepared formazin standards or commercially purchased formazin

standards. LaMotte Company approved AMCO

TM

standards labeled

for use with the LTC3000we/wi can also be used with the formazin

calibration. Stablcal

®

standards below 50 NTU should not be used to

calibrate the LTC3000we/wi.
The Japan Standard calibration is a calibration for a Japanese Water

Works standard. It is based on Japanese formulated polystyrene

turbidity standards. This calibration should only be used to meet

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