Are you looking for high cost-effective flow meter for large size water flow meter?
Are you looking for high cost-effective flow meter for large size water flow meter? Insertion magnetic flowmeter is your best choice because the price virtually independent on pipe diameter.
Insertion electromagnetic flowmeter can offer cost-effective, high accurate volumetric flow measurement, which is suitable for use in pipe ranging in size from 8" to 120" in diameter. Most importantly, price virtually independent on pipe diameter.
1. Features:
- Without moving parts in a sensor, simple and reliable;
- Easily mounted and disassembled under low pressure or pressure;
- Measurement accuracy is independent of changes in any physical parameters, such as density, viscosity,
humidity, temperature, pressure and conductivity (as long as the conductivity more than 20 μ s/cm);
- No pressure loss for sensor;
- Lower cost of installation, which is suitable for measuring the flow of big size;
- Adopting advanced low frequency square wave excitation. Zero stable, strong anti-interference capability,
and reliable work.
- Large flow range, full-scale flow velocity can be set arbitrarily from 1m/s to 10m/s, output signal and flow
rate appears linear;
- 0-10mA or 4-20mA standard current signal and 1-5kHz frequency output.
2. Technical Parameters:
- Measuring pipe nominal diameter: DN200~3000mm
- Flow range: full-scale can be continuously adjustable under the range of 1-10m/s
- Accuracy: ±1.5% under full-scale flow rate>1m/s
- Medium conductivity: ≥ 20μs/cm
- Working pressure: ≤1.6MPa
- Electrode material: SS316L, HC, Ti
- Measuring pipe material: ABS
- Medium temperature: Max. 60℃
- Protection class: IP68 (GB-08-84 Standard)
- Output signal for sensor: 0.209mVp—p/1/m/s
- The maximum signal transmission distance between the sensor and converter: 50 m (please contact the
factory for special request)
- Output signal: Dc current:
0 ~ 10 mA load resistance 0 ~ 1 k Ω;
4 ~ 20 Ma load resistance is 0 ~ 500 Ω;
Frequency: 1 ~ 5 kHz, load resistance is 250 ~ 1.2kΩ;