Description
The TRITON Series Coriolis Mass Flow Meter provides precise measurement of a medium’s mass by leveraging the Coriolis Principle, ensuring high accuracy. Unlike traditional methods, its precision remains unaffected by variables such as temperature, pressure, density, or viscosity, eliminating the need for compensation calculations. This flow meter comprises two essential components: the sensor and the transmitter. Moreover, it is meticulously designed and manufactured in compliance with national explosion-proof standards, specifically Exd ib li Ct5 Gb.
APPLICATIONS
- Liquids: Monitoring the flow of raw materials, or ensuring the consistency of liquid products during manufacturing processes.
- Custody Transfer: Where the accurate measurement of fluid quantities is essential for financial transactions, such as oil and gas distribution, custody transfer applications rely heavily on Coriolis Mass Flowmeters.
- Reactor Feed Ratio: Utilised in industries with chemical reactors for maintaining the proper ratio of feed materials, ensuring the correct amounts of reactants are introduced into the reactor.
- Density Measurement: Invaluable in industries where knowing the density of a substance is critical for process control, quality assurance, or compliance with regulatory standards.
- Gases: Coriolis Mass Flowmeters are crucial for processes such as gas mixing, combustion control, or monitoring gas consumption in industrial operations.
FEATURES
- U-shaped design for excellent stability and repeatability.
- Dedicated ASIC with digital closed-loop control for improved gas-liquid flow measurement performance.
- Dynamic vibration balance (DVB) technology for enhanced system stability.
- 2-point temperature compensation and process pressure compensation.
- Special configurations available for challenging applications, like high temperatures.
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| —————— TECHNICAL SPECIFICATIONS —————— |
| Application | Suitable for liquid.gas. Liquid-gas mass measurement or volume measurement |
| Material of Pipeline | SS316L/ Hastelloy HC |
| Pressure | Refer to chart shown above. Special orders would be placed for high pressure |
| Medium Temerature | -5O℃~15O℃
-50uC-250℃ -50℃~350℃ -100℃-350℃ |
| Enviroment Temperature | Sensor:-4O℃-I5O℃:
Transmitter:-20℃-70℃ |
| Flow Rate MeaAccuracy | 0.2%; 0.1% optional |
| Density Measurement Accuracy | 0.002g/cm3;0.001g/cm3 optional |
| Repeatability | 0,10% Flow Rate? i/2(Zero Point Stability/ Flow Rate)’1OO]% flow rate |
| Output Signal | 4*20mA load Resistance<500Q( instantaneous or Density optional)
0- 10kHz Instantaneous Flow Rale pulse signal |
| Explosion-proof Symbol | ExdibllCT5Gb |
FLOW RANGE
V Type
| Specification | DN (mm) | Liquid Flow Range (kg/h) | K – gas coefficient |
| SCM-V-005 | 5 | 600 | 60 |
| SCM-V-015 | 15 | 6000 | 70 |
| SCM-V-025 | 25 | 18000 | 700-25 |
| Note: gas flow range = liquid flow range x gas process density/K | |||
U Type
| Model | DN (mm) | Liquid Flow Range (kg/h) | K – gas coefficient |
| SCM-U-001N | 1 | 20 | 60 |
| SCM-U-002N | 2 | 60 | 60 |
| SCM-U-005N | 5 | 300 | 70 |
| SCM-U-010N | 10 | 1000 | 80 |
| SCM-U-015N | 15 | 6000 | 90 |
| SCM-U-025N | 25 | 10000 | 140 |
| SCM-U-040N | 40 | 20000 | 140 |
| SCM-U-040H | 40 | 30000 | 140 |
| SCM-U-050N | 50 | 30000 | 140 |
| SCM-U-050H | 50 | 60000 | 160 |
| SCM-U-080N | 80 | 60000 | 160 |
| SCM-U-080H | 80 | 180000 | 215 |
| SCM-U-100N | 100 | 100000 | 200 |
| SCM-U-100H | 100 | 280000 | 230 |
| SCM-U-150N | 150 | 300000 | 230 |
| SCM-U-150H | 150 | 640000 | 240 |
| SCM-U-200N | 200 | 1100000 | 250 |
| SCM-U-250N | 250 | 1800000 | 300 |
| Note: gas flow range = liquid flow range x gas process density/K | |||
