Information on this product
TARAtec 9/10 7 / 44
2.1.1 Chlorine dioxide CD10
The sensor measures the concentration of chlorine dioxide in the water
being measured. Such chlorine dioxide arises from the application of
chlorine dioxide (such as the acid/chlorite process, chlorine/chlorite
process). The chlorine dioxide sensor is insensitive to chlorine.
2.1.2 Peracetic acid P9 and P10
The sensor measures the concentration of peracetic acid in the water
being measured resulting from the application of peracetic acid.
2.1.3 Ozone OZ10
The sensor measures the concentration of dissolved ozone in the water
being measured. The sensor is virtually insensitive to chlorine.
2.1.4 Hydrogen peroxide WP10
The sensor measures the concentration of hydrogen peroxide in the
water being measured resulting from the application of hydrogen
peroxide.
2.1.5 Chlorine CH10
The sensor measures the concentration of free chlorine in the water
being measured. Such chlorine arises from the application of inorganic
chlorine products (such as chlorine gas, sodium hypochlorite solution,
calcium hypochlorite solution).
The sensor can be used in the pH range from pH 5.0 to pH 8.0. It is
essential to keep the pH value at a constant level, since the sensor signal
tracks the dissociation curve of the hypochlorous acid. The sensor shows
different chlorine values different values depending on the pH value
although no change in the chlorine concentration can be recognised in
the DPD-1 measuring values or iodometric measuring values.
When organic chlorine products or chlorine stabilisers are used, both
based on (iso) cyanuric acid as a rule, there may be considerable
differences between the DPD-1 measuring value or iodometric measuring
value and the signal of the chlorine sensor.
