Electromagnetic Flow Sensor for Water and Wastewater Applications.
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The KROHNE OPTIFLUX 2000 electromagnetic flow sensor is the optimum solution for water and wastewater applications. Its long term reliability and durability make it more than suitable for the water market.
The KROHNE OPTIFLUX 2000 overcomes the drawbacks of some SIL2-certified equipment:
The 3×100% diagnostics in the KROHNE OPTIFLUX 2000 is, therefore, much better for you than a normal SIL2 certified meter.
With just one signal converter and the widest range of flow sensors, the new KROHNE OPTIFLUX 2000 covers all applications, from a simple water measurement to corrosive or abrasive products or even pulp in the paper industry. Simplified engineering, procurement, and inventory lead to cost-savings for the user.
This new concept marks a new era, and is the result of more than 40 years' experience in electromagnetic flowmetering.
Using brand new technology has enabled us to increase the measuring performance of the KROHNE OPTIFLUX 2000 electromagnetic flow meter even further. These improvements are particularly useful where today's meters begin to capitulate. Examples of this include very low conductivity, measurement of rapid product changes with corresponding changes in pH, or the measurement of pulp in the paper industry.
This increase in performance was possible by a 30-fold improvement in the measuring technology components. Here we exploited all known optimization potentials.
Magnetic flow meters are intended to measure the flow of electrically conductive liquids in full pipes. The pressure drop through the meter is minimal, (equal in magnitude to a piece of pipe of the same diameter and length) making it an excellent choice for low pressure systems. There are no moving parts or obstructions in the fluid stream so the meter is virtually maintenance free and suitable for fluids containing abrasives. Modern pulsed DC excitation eliminates problems with zero shift often found in other designs.
The detection of flow is accomplished using the principle of electromagnetic induction. As a conductor passes through a magnetic field, a voltage is generated that is proportional to the velocity of the conductor moving through the field. In the case of the magnetic flow meter, the conductor is a conducting liquid. The higher the flow rate the greater the generated voltage.
For process flow measurement reasons the product must be grounded. Such a grounding system is lacking in pipes upstream and downstream of the primary head which feature a corrosion-resistant internal coating or liner, or are made entirely of plastics material. In such cases, grounding rings must be fitted on both sides of the primary head. Consult us for further information.
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