Suspender tub (right) – Campbell Scientific OBS500 Smart Turbidity Meter with ClearSensor Technology User Manual

OBS500 Smart Turbidity Meter with ClearSensor™ Technology

FIGURE 7-8. Portable Sediment Suspender (left) and OBS beam

orientation in suspender tub (right)

SSC = Wt

s

[V

w

+ Wt

s

/ρ

s

]

–1

, where Wt

s

= total sediment weight in tub in mg,

V

w

= volume of water in liters, ρ = density of water (ρ = 1.0 kg L

–1

at 10°

C),

and ρ

s

= sediment density (assume 2.65 10

3

mg L

–1

)

Procedure

1. Record and log the clean-water signal as in Step 1, Section 7.5.1,

Turbidity; see FIGURE 7-6. Use the same value, such as, side scatter,

backscatter, or ratio throughout the calibration.

2. Move the OBS500 to the suspender as described in setup.

3. Weigh 500 ± 10 mg of sediment in a weigh boat and transfer it to the

teacup. Record the weight on the calibration log sheet and add about 10 cc

of water from the suspender tub to the teacup and mix the water and

sediment into a smooth slurry with the teaspoon.

4. Add the sediment slurry to the tub and rinse the teacup and spoon with tub

water to get all the material into the suspender.

5. Turn the suspender on and let it run for 10 minutes or until the OBS signal

stabilizes.

6. Take averages of signals with the computer or datalogger and enter them

on the calibration log sheet.

7. Calculate the sediment-weight increment as follows: W

i

= 2500 mg

(4000/V

x

), where W

i

= the incremental weigh of sediment and V

x

= the

average output signal from step 6. The resulting weight gives the amount

of sediment to add in order to have evenly spaced calibration points.

8. Add enough additional sediment to get one full increment of sediment, W

i

± 5%. Repeat steps 4, 5, and 6.

9. Repeat step 8 until five full increments of sediment have been added or

until the OBS signals exceed the output range.

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