Seawater Electromagnetic Water Flow Meter With Rubber Liner
Electromagnetic Water Flow Meter, seawater magnetic flow transmitter, heat meter
Description
The electromagnetic heat meter utilizes the relationship between flow rate and cooling effect for direct measurement of mass flow. With no moving parts and minimal invasiveness, thermal flow meters provide a highly repeatable, accurate, low cost, easy to install solution for flow measurements and calculating energy consumption. We provide flow meters suitable for applications in pipes and ducts, from DN10 to DN2000.
Our magnetic heat meter works on Law of Faraday's electromagnetic induction. We've owned our own patents: ZL2010 20145263.9 and ZL2011301682. It consists of: flow measurement, heat integrating unit and temperature sensor. The magnetic meter is designed to improve the accuracy and reliability of trade settlement in HVAC, centra air conditioning system
Measure theory
The electromagnetic flowmeters, can detect flow by using Faraday's Law of induction. Inside a magnetic flow meter, there is an electromagnetic coil, that generates a magnetic field, and the electrodes that capture electromotive force (voltage).
Features
- Virtually no pressure loss
- Suitable to meter for wide range of conductive liquid media
- No Moving Parts
- Flanges port connection
- RS485 Standard
- Suitable for Pipes diameter p to 2000 mm
- Large meter ratio
- High Accuracy
- 4 to 20 mA / Frequency / Pulse output
Applications
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MUNICIPAL WATER
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INDUSTRIAL LIQUID
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WASTEWATER
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IRRIGATION
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CHEMICALS
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POWER SUPPLY
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PHARMACEUTICALS
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FOOD
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PAPER PLANTS
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METALLURGICAL MINES
Technical data
| Product name | Electromagnetic flowmeter | ||
| Product type | Local|compact display | Remote display | Signal converter |
| Model | IYF-E | IYF-F | IRT |
| Pipe Diameter (mm) | DN10-DN2000 | ||
| Power supply | 100-240 VAC / 18-36 VDC | ||
| Accuracy | + 0.5% | + 0.5% | + 0.5% |
| Power consumption | <6w | <6w | <6w |
| Enclosure rating | IP65 | IP68 | IP65 |
| Liquid temperature | -25-120℃ | -25-120℃ | -25-120℃ |
| Ambient temperature | -25-50℃ | -25-50℃ | -25-50℃ |
| Relative humidity | 10-90% | 10-90% | 10-90% |
| Meter ratio | 1:100 | 1:100 | 1:100 |
| Flow direction | Bi-direction flow | Bi-direction flow | Bi-direction flow |
| Communication | RS485 / Bacnet | RS485 / Bacnet | RS485 / Bacnet |
| Signal Output | 4-20mA/Pulse/Frequency | 4-20mA/Pulse/Frequency | 4-20mA/Pulse/Frequency |
Accuracy
| Pipe Dia (mm) | Velocity (m/s) | Accuracy |
| 3-20 | <0.3 | + 0.25% FS |
| 0.3-1 | + 1.0% Readout | |
| 1-15 | + 0.25% Readout | |
| 25-600 | 0.1-0.3 | + 0.25% FS |
| 0.3-1 | + 0.5% Readout | |
| 1-15 | + 0.3% Readout | |
| 700-3000 | <0.3 | + 0.25% FS |
| 0.3-1 | + 1.0% Readout | |
| 1-15 | + 0.25% Readout |
Model selection
Notice on the selection of local type and remote type:
Remote type means the transmitter and converter display are mounted in different locations, it’s suggested to select
remote type in the following conditions:
- Ambient temperature or converter display sunshine temperature is over 60 ℃
- High humidity or corrosive air existed
- Serious pipe vibration
- Magnetic meter need be suspended or submersible, uneasily read out
- Other abrasive condition
| No | Model | ||||||||
| YF | Electromagnetic flowmeter | ||||||||
| TF | Turbine | ||||||||
| VF | Votex | ||||||||
| LX | Vane wheel | ||||||||
| T | Ultrasonic | ||||||||
| E/F display mode | E: compact/local display, F: remote display | ||||||||
| Pipe Dia | Type (mm) | ||||||||
| xxxx |
15, 20, 25, 32, 40, 50, 65, 80, 100, 125, 150, 200, 250, 300, 400, 500, 600, 800, 1000 |
||||||||
| Code | Accuracy | ||||||||
| 1 | + 0.5% FS | ||||||||
| 2 | + 1.0% FS | ||||||||
| 3 | + 0.2% FS | ||||||||
| Code | Type | ||||||||
| N | Converter: 12 / 24 VDC, pulse output | ||||||||
| A | Transmitter: 24VDC, 4-20mA outpt | ||||||||
| B | Intelligent, Lion battery, no local display | ||||||||
| G | Smart, local display, 4-20mA output | ||||||||
| C1 | Smart, local display, RS485 | ||||||||
| C2 | Smart, local display, HART | ||||||||
| Code | Type | ||||||||
| S | Carbon steel housing | ||||||||
| L | Stainless steel housing | ||||||||
| G | High pressure housing | ||||||||
| HL | 316L electrode | ||||||||
| HTi | Titanium electrode | ||||||||
| HTa | Tantlum electrode | ||||||||
| HC | Hastelloy-C electrode | ||||||||
| L1 | Liquid media | ||||||||
| L2 | Gas media | ||||||||
| P | Pressure compensation | ||||||||
| T | Temperature compensation | ||||||||
| PT | Pressure&Temp. Compensation | ||||||||
| F | PTFE liner | ||||||||
| X | Rubber liner | ||||||||
|
Sample: IYF-E-0100-1-C1-S-HL-L1-F, Magmeter, local display, Dia: 100mm, + 0.5%FS, carbon steel housing, smart, 4-20mA outpt, RS485, 316L electrodes, liquid media meter, PTFE liner |
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Applicable metering liquid:
- Conductive liquid media, conductivity > 5 µS/ cm
- Various Conductive aqueous solutions, water solutions, acid & caustics
- Abrasive slurries, sludges and grease bearing liquids, corrosive liquid, municipal tap water, waste water,dirty
water, effluent, fibrous, viscous, paper mill, food & beverage
Non-applicable metering medial
- Industrial gas, compressed air, steam, or liquid with large content of gas
- Liquid is non-conductive or low conductive, like lubricating oil, clean oil, cryogenic, cooling water, pure
water, clean gas, etc.
Pipe Diameter, flow volume and product dimension
| Dia | Flow volume (m3/h) | Product dimension (mm) | |||||
| (mm) | Normal | Min | Max | L | D | H | H1 |
| 15 | 1.5 | 0.06 | 9.5 | 150 | 95 | 272 | 254 |
| 20 | 2.5 | 0.11 | 16.9 | 105 | 277 | 254 | |
| 25 | 3.5 | 0.18 | 26.5 | 115 | 283 | 254 | |
| 32 | 6 | 0.29 | 43.6 | 140 | 297 | 270 | |
| 40 | 10 | 0.45 | 67.8 | 150 | 307 | 280 | |
| 50 | 15 | 0.71 | 106.0 | 200 | 165 | 318 | 294 |
| 65 | 25 | 1.19 | 179.1 | 185 | 337 | 313 | |
| 80 | 40 | 1.81 | 271.4 | 200 | 352 | 326 | |
| 100 | 60 | 2.83 | 424.1 | 250 | 220 | 371 | 344 |
| 125 | 100 | 4.42 | 665 | 250 | 401 | 372 | |
| 150 | 135 | 6.36 | 954 | 300 | 285 | 431 | 403 |
| 200 | 250 | 11.3 | 1696 | 350 | 340 | 486 | 460 |
| 250 | 375 | 17.66 | 2650 | 400 | 395 | 547 | 511 |
| 300 | 540 | 25.43 | 3817 | 450 | 445 | 597 | 565 |
| 350 | 735 | 34.62 | 5195 | 505 | 657 | 620 | |
| 400 | 960 | 45.22 | 6785 | 500 | 565 | 717 | 675 |
| 450 | 1200 | 57.23 | 8588 | 550 | 615 | 757 | 727 |
| 500 | 1500 | 70 | 10602 | 600 | 670 | 817 | 782 |
| 600 | 2160 | 100 | 15268 | 780 | 917 | 782 | |
| 700 | 2950 | 138 | 20781 | 700 | 895 | 1027 | 1068 |
| 800 | 3850 | 180 | 27100 | 800 | 1015 | 1137 | 1157 |
Industrial applications
| Chemical | Food & beverage | Paper mill |
| Metallurgy | Environment protection | Hydraulic |
| Mining | Stainless | Petroleum |
| Pharmacy | Air conditioner | Effluent treatment plant |
| Seawater desalination | Pharmacy | Water treatment |
Competitive advantage
- Compliance to international standards: ISO14001, GB/T28001, ISO9001-2008 / GB/T50430
- Strict process control
- Advanced calibration equipment
- Engineer team
Details demonstration
Inhouse PCB production Silicon steel transformer Calibration line
How to use the magnetic flow meter
The ElectroMagnetic flowmeters measure the velocity of conductive liquids in pipes, such as water, acids, caustic, and slurries. Magnetic flowmeters can measure properly when the electrical conductivity of the liquid is greater than approximately 5μS/cm. Be careful because using magnetic flowmeters on fluids with low conductivity, such as deionized water, boiler feed water, or hydrocarbons, can cause the flowmeter to turn off and measure zero flow.
Get in Touch
Have questions about our products or want to discuss a custom order? Our team is ready to help you.