FLOW MEASUREMENT
Azbil Magmeter
Azbil’s high-efficiency electromagnetic flowmeters can be applied to a wide range of applications. Also includes removable electrodes, polished liner, and melted in PFA liner.
Azbil Vortex Flowmeter
Vortex flow meters measure fluid velocity using a principle of operation referred to as the von Kármán effect. It states that when flow passes by an obstruction in the flow path, vortices are generated in a repeating pattern.
AZBIL VORTEX + DP FLOWMETER
Azbil VorTek VorCone™ flow meters utilize two different flow meter technologies in combination, Vortex and Differential Pressure. This combination allows for the prediction of the fluid density, volumetric flow rate and mass flow rate without any fluid density information being required from an external source.
Azbil Clamp On Ultrasonic Flowmeter
Vortex flow meters measure fluid velocity using a principle of operation referred to as the von Kármán effect. It states that when flow passes by an obstruction in the flow path, vortices are generated in a repeating pattern.
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CURRENT INSTRUMENTATION iCOR 2400 Coriolis Mass Flow Meter
iCOR 2400 Coriolis Mass Flow Meter is designed with an actuator that enables a small tube to vibrate continuously at its natural frequency. Two sensors placed along this tube measure the tube’s deflection over time. When no fluid flows through the tube, both sensors measure the same deflection simultaneously. However, when a liquid or gas flows through the tube, the mass of the fluid causes an additional twist to the tube due to the fluid’s inertia
CURRENT INSTRUMENTATIONs iCOR 2400 Remote Coriolis Mass Flow Meter
iCOR 2400 Remote Coriolis Mass Flow Meter is designed with an actuator that enables a small tube to vibrate continuously at its natural frequency. Two sensors placed along this tube measure the tube’s deflection over time. When no fluid flows through the tube, both sensors measure the same deflection simultaneously. However, when a liquid or gas flows through the tube, the mass of the fluid causes an additional twist to the tube due to the fluid’s inertia.