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Turbine Flow Meters for use with liquids have a relatively simple theory of operation, as a fluid flows through the tube of the flow meter it impacts upon turbine blades. The turbine blades on the rotor are angled to transform energy from the flowing liquid into rotational energy
Turbine Flow Meters for use with liquids have a relatively simple theory of operation, as a fluid flows through the tube of the flow meter it impacts upon turbine blades. The turbine blades on the rotor are angled to transform energy from the flowing liquid into rotational energy
Pickoffs As the rotor moves so do the turbine blades, movement of the blades is often detected either by a magnetic or modulated carrier (RF) pickoff. The pickoff is commonly mounted to the outside of the flow tube and it senses each rotor blade passing. The pickoff sensor will then generate a frequency output; the frequency is directly proportional to the volume of the liquid.
Applications
- Oil
- DM Water
- Chemical,
- Power, Food and Beverage
- Aerospace, Pharmaceutical
- Metals and Mining
- Pulp and paper
Specifications
| Flow pipe | SS 304; SS 316 |
| Rotor | SS 410; SS 304; SS 316 |
| Shaft | Hard Stainless Steel-316 with carbon bush |
| Accuracy | +/- 0.5 or 1% FSD |
| Repeatability | 0.1% |
| Maximum Working pressure | 6 MPa |
| Fluid & Ambient temperature | -20 to 120 °C |
| Connection | Thread (M) / Flange / Tri Clamp (Optional) |
| Type | Integral / Two Part |
| Supply Voltage | Integral – 24 V DC / Two Part – 220 V AC |
| Output | 4 – 20 mA, RS 485 (Optional) / Pulse – Two part |
Selection – Line Size – Flow Range
| Line Size | Flow Range in LPH |
| DN 25 (1”) | 1000 ~ 10000 |
| DN 40 (1.5”) | 2000 ~ 20000 |
| DN 50 (2”) | 4000 ~ 40000 |
| DN 80 (3”) | 10000 ~ 100000 |
| DN 100 (4”) | 20000 ~ 200000 |
| DN 150 (6”) | 30000 ~ 300000 |
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Phone :+918037744718