Bürkert Type 8756 mass flow meters

Wednesday, 01 December, 2021 | Supplied by: Burkert Fluid Control Systems

The Bürkert Coriolis-MFC/MFM Type 8756 is a compact, robust multi-parameter device that is designed to reliably and repeatably measure, regulate or dispense even the smallest quantities of liquid thanks to the high measurement/setting range.

Utilising the Coriolis measurement principle, the Type 8756 measures the mass flow rather than volumetric flow measurement, and measures independently of pressure and temperature.

Due to the sophisticated design and high excitation frequency of the sensor, the device is not sensitive to vibrations, and there are no moving parts contacting the medium. Type 8756 is thus particularly durable and is suitable for fluids with a high density and a viscosity of up to 200 mPa·s. The sensor can also be calibrated with water, regardless of the use case.

Because of these characteristics, Type 8756 can be used in various industries, such as pharmaceuticals and biotech, foodstuffs and semi-luxury goods, thin-film coating, fuel cells, electrolysers and batteries, or chemical process technology.

The Type 8756 is also characterised by a high flow measuring accuracy of ±0.2% in the measuring range ±0.0014 kg/h and operates with a high level of repeatability, even at very low flow rates. The sensor is suitable for a flow range up to 25 kg/h for water or media with similar dynamic viscosity and offers a fully usable measuring range of up to 1:250.

For more information click here.

Online: www.burkert.com.au
Phone: 1300 888 868
Related Products

Krohne OPTISONIC 6300 ultrasonic clamp-on flowmeter

The OPTISONIC 6300 is now available with updated stainless steel sensor rails and an enhanced...

ifm efector LW2720 radar level sensor

The LW2720 level sensor can be used to measure the levels of liquid media in tanks with a height...

Rosemount 3051S High Static Differential Pressure Transmitter

The Rosemount 3051S high-pressure transmitter technology with an all-welded, stainless steel...

  • All content Copyright © 2022 Westwick-Farrow Pty Ltd