What is it?
The Aquametro AOM-CM is a Coriolis mass flow meter for liquids and gases, designed for highly accurate measurement of both mass flow and density. This compact and robust sensor is suitable for a wide range of industrial applications—from precise dosing to high-volume flow. With its solid construction, flexible flange options, and measuring range from just a few kilograms per hour up to 540,000 kg/h, the AOM-CM is a reliable choice for industries such as chemical processing, food and beverage, energy, and maritime sectors. Its performance remains stable even under vibration, pressure fluctuations, or with aggressive and abrasive media. With no moving parts, the meter is virtually maintenance-free and highly durable.
How does it work?
The AOM-CM operates based on the Coriolis principle, in which mass flow is determined by measuring the forces exerted on vibrating tubes as fluid or gas passes through them. Thanks to the torsional oscillator design, it delivers an exceptionally stable and drift-free signal with a high signal-to-noise ratio. The sensor is completely resistant to external interference, pipe vibrations, and pressure fluctuations. The thick-walled tube design enhances safety in abrasive media applications, while the low mechanical stress on the sensor mechanism contributes to a longer service life. Measurements are taken in real time and, depending on the configuration, the meter can provide both mass flow and density readings.
What problems does it solve?
Accurate flow measurement is essential for process control, product quality, and operational safety. Traditional flow meters are often sensitive to pressure, temperature, vibration, or the properties of the medium, which can lead to inaccuracies or premature wear. The AOM-CM solves these issues with unmatched measurement stability, even in demanding conditions. Its rugged, contactless design with fixed measuring tubes eliminates the need for calibration and frequent maintenance. The sensor delivers consistent, reliable data, reduces downtime, and increases process reliability—even in the most challenging industrial environments.
