The sensor measures turbidity from 0.000 to 4000 NTU with accuracy of 2% of measurement ±0.01 NTU at process temperatures from -4 to 185 °F with a detection limit of 0.0015 NTU. The sensor measures turbidity in accordance with ISO 7027
The Turbimax CUS52D’s surface minimises the build-up of biofilms and particulates. The ability to operate at high pressures (up to 145 psi) makes suppressing air bubbles possible. For bypass operation an optional air bubble trap catches smaller air bubbles. In particularly challenging cases, the CYR52 ultrasonic cleaning system can be installed on a flow cell or even right on the existing pipe to prevent and remove surface contamination and bubbles without direct product contact.
The unit is available in immersion, flow cell and in-line versions. The immersion model can be installed in open channels and basins, while the stainless steel hygienic in-line model can be inserted directly into pipes. It can be used at the raw water inlet of any plant and the outlet of process filtration and clarification. The Turbimax CUS52D is well suited to filter monitoring, filter backwashing and all stages of industrial water purification. With available 2” triclamp it is also well adapted to hygienic food and beverage processes in brewing, spirits, soft drink, dairy and others. Its fast response time of less than 1 second means it can also perform very well as a primary process variable (PV) in control applications.
The sensor uses the 90° light scattering principle in accordance with the ISO 7027 standard. The optical signals from the sensor are continuously monitored and tested for plausibility. In the case of discrepancies, an error message is sent via the transmitter.
A smart solid state reference for the Turbimax CUS52D allows the sensor to be verified and calibrated before insertion into the process without the use of liquid standards. As a result, neither employees nor processes come into contact with any harmful liquid standards such as Formazin, which are typically used for field calibration. The solid state references are matched to each sensor for maximum calibration accuracy, are simple to use, and provide consistent, reliable and clear results.
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