Coriolis mass flow meter is designed according to micro motion and Coriolis principle. It is a leading precision flow and density measurement solution offering the most accurate and repeatable mass flow measurement for virtually any process fluid, with exceptionally low pressure drop.
The Coriolis flow meter worked on the Coriolis effect and was named. Coriolis flow meters are considered to be true mass flow meters because they tend to measure mass flow directly, while other flow meter techniques measure volume flow.
Besides, with batch controller, it can directly control the valve in two stages. Therefore, Coriolis mass flowmeters are widely used in chemical, pharmaceutical, energy, rubber, paper, food and other industrial sectors, and are quite suitable for batching, loading and custody transfer.
Coriolis Type Flow Meter Advantages
It has high measurement accuracy, standard accuracy 0.2%; And the measurement is not affected by the physical properties of the medium.
Coriolis type flow meter provide a direct mass flow measurement without the addition of external measurement instruments. While the volumetric flow rate of the fluid will vary with changes in density, the mass flow rate of fluid is independent of density changes.
There is no moving parts to wear and need to be replaced. These design features reduce the need for routine maintenance.
The Coriolis mass flow meter is insensitive to viscosity, temperature and pressure.
The Coriolis flow meter can be configured to measure positive or reverse flow.
Flow meters are operated by flow characteristics such as turbulence and flow distribution. Therefore, upstream and downstream direct pipe operating requirements and flow regulation requirements are not required.
The Coriolis flow meter does not have any internal obstacles, which may be damaged or blocked by viscous slurry or other types of particulate matter in the flow.
It can take measurement of high viscosity fluids, such as crude oil, heavy oil, residual oil and other liquids with higher viscosity.
Flow accuracy | ±0.2% Optional ±0.1% |
Diameter | DN3~DN200mm |
Flow repeatability | ±0.1~0.2% |
Density measuring | 0.3~3.000g/cm3 |
Density accuracy | ±0.002g/cm3 |
Temperature measuring range | -200~300ºC (Standard Model -50~200ºC) |
Temperature accuracy | +/-1ºC |
Output of current loop | 4~20mA; Optional signal of flow rate/Density/Temperature |
Output of frequency/pulse | 0~10000HZ; Flow signal (Open collector) |
Communication | RS485, MODBUS protocol |
Power supply of transmitter | 18~36VDC power≤7W or 85~265VDC power 10W |
Protection class | IP67 |
Material | Measuring tube SS316L housing:SS304 |
Pressure rating | 4.0Mpa (Standard pressure) |
Explosion-proof | Exd(ia) IIC T6Gb |
Enviroment Specifications | |
Ambient temperature | -20~-60ºC |
Enviroment humidity | ≤90%RH |
· Petroleum, such as crude oil, coal slurry, lubricant and other fuels.
· High viscosity materials, such as asphalt, heavy oil and grease;
· Suspended and solid particulate matter materials, such as cement slurry and lime slurry;
· Easy-to-solidified materials, such as asphalt
· Accurate measurement of medium- and high-pressure gases, such as CNG oil and gas
· Micro-flow measurements, such as fine chemical and pharmaceutical industries;
(1). The meter should be installed downward when measuring liquid flow (Figure 1), so that air cannot get trapped inside the tubes;
(2). The meter should be installed upward when measuring gas flow (Figure 2), so that liquid cannot get trapped inside the tubes;
(3). The meter should be installed sideward when the medium is turbid liquid (Figure 3) to avoid particulate matter accumulated in the measuring tube. The flow direction of medium goes from the bottom up through the sensor.