»»»»»»»»» » »»» » » »» Highlights: Measurement of mass flow, density and temperature and calculation of volumetric flow and mass or volume concentration with a single deviceA complete range of industrial measuring devices for the most diverse applicationsNot susceptible to installation effects: Installed independently of the type of installation and external influences such as pipeline vibrations.OPTIMASS is the only straight tube meter for when custody transfer is required in the highest OIML accuracy class 0.3.An electronics package for all measured value pick-ups; this modular concept guarantees fast and easy swapping of electronic packages or measured value pick-ups.Reliable measurement, even for problematic applications such as highly viscous media, inhomogeneous mixtures, media with a proportion of solids or gas inclusionsHighest degree of accuracyFrom 0.3 to 430,000 kg/h of flowTo a processing temperature of 350 °C Pressure-resistant jacket up to 100 barEasily drained and easy to clean Patented Adaptive Sensor Technology (AST) for the most reliable measurement resultsLow loss of pressure for the straight tube measuring devices = low power consumptionOPTIMASS 7000 for media that is susceptible to shearing and media with a low flow rateFast signal processing, even during media or temperature changes and jumps in densityHigh density accuracy even during rapid temperature changes; excellent zero point stabilityOPTIGAS – the best soluton for CNG service stations

Mass flowmeters

The measuring principle: The mode of operation of mass industrial flowmeters is based on the Coriolis principle. This allows you to determine the mass flow of liquids and gases from the deformation of the measuring pipe caused by liquids and gases. At the same time, the density of the medium can be derived from the resonance frequency of the pipe that has been caused to vibrate. Two sensor coils serve to detect the Coriolis effect. If there is no flow, both sensors record the same sinusoidal signal. Once a flow begins, the Coriolis force acts on the flowing mass particles of the medium and leads to a deformation of the measuring pipe and a phase shift between the sensor signals. The sensors measure the phase shift of the sinusoidal vibrations. This phase shift is directly proportional to the mass flow.