- Measurement of mass flow rate, density and speed
- High accuracy and repeatability
- No dependence on flow direction
- U-shape and straight tube design
- Suitable to measure high viscosity and non-Newtonian fluids; slurry containing solid phase components
- Explosion proof
| Diameter: | DN10 to DN600 |
| Measuring medium: | Liquid, air |
| Temperature range: | Compact: -50 to 125°C / Remote: -50 to 200°C High temperature remote: -50 to 300°C Low temperature remote: -150 to 125°C |
| Tube design: | U-shape tube; straight tube |
| Converter: | Digital |
| Working voltage: | DC24V, AC220V |
| Communication: | RS485 |
| Nominal pressure (MPa): | 1.6, 2.5, 4.0, 6.3 |
| Output signal: | Pulse, 4-20mA |
| Accuracy: | Accuracy: 0.1 Grade Intrinsic Error: ±0.10% Repeatability: ±0.05% |
| Accuracy: 0.15 Grade Intrinsic Error: ±0.15% Repeatability: ±0.075% |
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| Accuracy: 0.2 Grade Intrinsic Error: ±0.2% Repeatability: ±0.10% |
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| Accuracy: 0.5 Grade Intrinsic Error: ±0.5% Repeatability: ±0.25% |
I-SYSTEM Coriolis mass flow meter can be used for direct measurement of mass flow rate and density. A Coriolis flow meter consists of two parallel tubes that are made to oscillate using a magnet. When fluid is flowing through the tube, its generates the Coriolis forces, causing the tubes to twist in proportion to the mass flow rate. The magnitude of this twisting is measured by the sensors as a phase shift between the inlet and outlet of the tubes. The phase shift is used to measure the mass flow rate. The tubes also oscillate at their own resonant frequency in proportion to the density of the medium through the tubes. This effect is used to derive the density of the medium.