Hanna Instruments HI 93703 User Manual

10

* 1 FTU = 1 NTU

• Even though HI93703-11 covers a very

wide range of turbidity values, for very
accurate measurements of samples ex-
ceeding 40 FTU *, Standard Methods re-
quire dilution. In such cases, the correct
amount of HI 93703-0 or turbidity-free
water to be added to the sample can be
calculated as follows:

Vos = 3000 / T

where: Vos = volume of sample (mL) to be

combined with HI 93703-0 to
obtain the final volume of 100 mL.

T

= HI 93703 reading (exceeding

40FTU*)

E.g.: HI 93703 reading = 200 FTU *

3000 / 200 = 15 mL (Vos)
15 mL (Vos)+85 mL (HI 93703-0) = 100 mL

At this point, take a sample of this solution
and measure its turbidity.
The correct turbidity value of the original
sample will be:

T

n

x 100 mL / Vos = T

a

where: T

n

= new HI 93703 reading

T

a

= actual turbidity value of the original

sample

E.g. If T

n

= 27 FTU *

T

a

= 27 FTU *x100 mL / 15 mL = 180 FTU *

NOTE: Any sample taken above 1000 FTU will
show out of range by blinking "1000".

15

* 1 FTU = 1 NTU

hours (the sample needs to be kept at room
temperature prior to the analysis).

• To obtain a representative sample, gently,

but thoroughly, mix it before samples are
taken. Do not shake (to prevent air bubbles)
and do not let the sample settle.

• It is recommended to calibrate the meter with

the supplied HI 93703-10 @10 FTU* stan-
dard at least once a month or more frequently
for greater accuracy.

• Before inserting vials into the instrument,

wipe them with HI 93703-70 or a soft, lint-
free tissue. Handle vials so that no finger-
prints get on the areas where light passes
(approx. the bottom 2 cm/1 inch).

If you experience any problems in taking mea-
surements, contact your dealer or the nearest
Hanna Customer Service Center.

SOURCES OF INTERFERENCE

• Presence of floating debris and coarse sedi-

ments which settle out rapidly will give false
readings.

• The infrared light source used for HI 93703-

11 turbidity meter, complies with the ISO
7027 International Standard and can effec-
tively minimize any errors due to colored
dissolved substances. This effect, called
"true color", is a common interference for
most commercially available instruments
operating in the range of visible light.

• Air bubbles and the effect of vibrations that

disturb the surface of the sample may give
false results and should be avoided.

• Dirty glassware could also affect readings

along with scratched or dented vials.