Coriolis Mass Flowmeters

Coriolis flow measurement: Simultaneous measurement of mass flow, density, temperature and viscosity.

1 - 46 of 46 Products
Promass E 8E1C
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Promass E 8E1C
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Promass S 8S3B
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Promass S 8S3B
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Promass S 8S1C
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Promass S 8S1C
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Promass E 8E2C
Endress+Hauser
Promass E 8E2C
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Cubemass 8CM
Endress+Hauser
Cubemass 8CM
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Promass G 8G1B
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Promass G 8G1B
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Promass I 8I1B
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Promass I 8I1B
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Promass H 8H1B
Endress+Hauser
Promass H 8H1B
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Master Meter System DSK1MM
Endress+Hauser
Master Meter System DSK1MM
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Promass A 8A5C
Endress+Hauser
Promass A 8A5C
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Promass Q 8Q5B
Endress+Hauser
Promass Q 8Q5B
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CNGmass 8FF
Endress+Hauser
CNGmass 8FF
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LNGmass D8LB
Endress+Hauser
LNGmass D8LB
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Promass F 8F2B
Endress+Hauser
Promass F 8F2B
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Promass U 8U5B
Endress+Hauser
Promass U 8U5B
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Promass E 8E3B
Endress+Hauser
Promass E 8E3B
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Promass P 8P3B
Endress+Hauser
Promass P 8P3B
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Promass Q 8Q3B
Endress+Hauser
Promass Q 8Q3B
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Promass O 8O1B
Endress+Hauser
Promass O 8O1B
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CNGmass 8DF
Endress+Hauser
CNGmass 8DF
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Promass O 8O5B
Endress+Hauser
Promass O 8O5B
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Promass P 8P5B
Endress+Hauser
Promass P 8P5B
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Promass F 8F1B
Endress+Hauser
Promass F 8F1B
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Promass I 8I3B
Endress+Hauser
Promass I 8I3B
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Cubemass 8C3B
Endress+Hauser
Cubemass 8C3B
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Cubemass 8C5B
Endress+Hauser
Cubemass 8C5B
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Coriolis flowmeter CNGmass D8CB
Endress+Hauser
Coriolis flowmeter CNGmass D8CB
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Coriolis flowmeter Promass A 8A1B
Endress+Hauser
Coriolis flowmeter Promass A 8A1B
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Coriolis flowmeter Promass A 8A2B
Endress+Hauser
Coriolis flowmeter Promass A 8A2B
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Promass H 8H5B
Endress+Hauser
Promass H 8H5B
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Promass X 8X5B
Endress+Hauser
Promass X 8X5B
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Promass F 8F5B
Endress+Hauser
Promass F 8F5B
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Promass X 8X3B
Endress+Hauser
Promass X 8X3B
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Promass O 8O3B
Endress+Hauser
Promass O 8O3B
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Promass H 8H3B
Endress+Hauser
Promass H 8H3B
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LPGmass 8FE
Endress+Hauser
LPGmass 8FE
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Coriolis flowmeter Promass K 8KBB
Endress+Hauser
Coriolis flowmeter Promass K 8KBB
Lean Lean
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Coriolis flowmeter Promass F 8F3B
Endress+Hauser
Coriolis flowmeter Promass F 8F3B
Extended Extended
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Promass P 8P1B
Endress+Hauser
Promass P 8P1B
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Cubemass 8CN
Endress+Hauser
Cubemass 8CN
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Promass I 8I5B
Endress+Hauser
Promass I 8I5B
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Promass S 8S5B
Endress+Hauser
Promass S 8S5B
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Proline Promass A 300 Coriolis Flowmeter
Endress+Hauser
Proline Promass A 300 Coriolis flowmeter
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Cubemass 8C1B
Endress+Hauser
Cubemass 8C1B
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Promass E 8E5B
Endress+Hauser
Promass E 8E5B
Extended Extended
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Dosimass D8AB
Endress+Hauser
Dosimass D8AB
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Coriolis Mass Flowmeters

Coriolis mass flowmeters measure mass flow directly by monitoring the dynamic response of one or more vibrating measuring tubes. As fluid passes through the oscillating tube(s), inertial forces create a measurable phase shift that is proportional to mass flow. Because the measurement is based on mass rather than volume, it remains stable when pressure and temperature change density, and it is broadly applicable to both liquids and gases.

In addition to mass flow, density can be derived from the tube’s oscillation frequency and the instrument can report process temperature for thermal compensation. With these primary variables available simultaneously, secondary values can be calculated for control and quality purposes, including volume flow, solids content, and concentration or reference-density scales (for example °Brix, °API, °Plato). This multivariable output set is valuable wherever a single installation must support both process control and product verification.

Key benefits include high measuring accuracy, a principle that is largely independent of the physical fluid properties and the flow profile, and reduced installation constraints because dedicated inlet/outlet straight runs are not required in the same way as many velocity-based technologies. These characteristics support repeatable measurement across wide operating ranges and contribute to strong long-term performance in applications where drift, zero stability, and traceability are critical.

Typical applications include chemical and petrochemical feeds, batching and blending skids, additive dosing, and loading/unloading measurement for fuels and crude products. In hygienic and life-sciences processes, the ability to measure low flows with high resolution while trending density for concentration control supports consistent product quality. The technology is used across fluids ranging from solvents and cleaning agents to viscous foods and liquefied gases.

Selection and engineering considerations focus on sizing for the required turndown and allowable pressure drop, choosing wetted materials compatible with corrosion and cleaning regimes, and managing installation influences such as external vibration and entrained gas. Where process conditions vary, leveraging density and temperature outputs can reduce uncertainty in downstream calculations and improve observability without adding additional primary sensors.

Field Instruments & Controls, Inc. an exclusive authorized representative of sales and service for Endress+Hauser.