Small Size Therm Air Mass Flowmeter

Small Size Therm Air Mass Flowmeter

Small Size Therm Air Mass Flowmeter

Basic Info.
Model NO.:Lzm
Accuracy:±0.6-1%
Main Application:Water, Wastewater, Diesel Fuel, Fuel Oil, Nature Gas, Corrosive Liquid/Gas
Size:Dn1.5~Dn200
Sensor:Tube/Flange
Type:Thermal Mass Flowmeter
Measuring Media:Liquid

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Measuring Principle:Atomic Physics
Flow Medium Measured:Air,Nitrogen, Hydrogen, Helium, Ammonia, Argon, an
Output Signal:4-20mA, Pulse, RS485, Hart
Indicate:Flow Rate, Total Flow
Fluid Types:Two-Phase Flow, Three-Phase Flow
Export Markets:Global
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Additional Info.
Trademark:U-ideal
Packing:Wooden Case or Carton
Standard:ANSI JIP DIN JS and others

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Origin:Tianjin, China
HS Code:90261000
Production Capacity:6000 PCS/Month

Product Description

Thermal for Compressed Air
Thermal flow meters are most commonly used to measure the mass flow of clean gases, such as air, nitrogen, hydrogen, helium, ammonia, argon, and other industrial gases.

How Thermal Flowmeters Work
Thermal flowmeters use the thermal properties of the fluid to measure the flow of a fluid flowing in a pipe or duct. In a typical thermal flowmeter, a measured amount of heat is applied to the heater of the sensor. Some of this heat is lost to the flowing fluid. As flow increases, more heat is lost. The amount of heat lost is sensed using temperature measurement(s) in the sensor. The transmitter uses the heat input and temperature measurements to determine fluid flow. Most thermal flowmeters are used to measure gas flows.
The amount of heat lost from the sensor is dependent upon the sensor design and the thermal properties of the fluid. The thermal properties of the fluid can and do vary with pressure and temperature, however these variations are typically small in most applications. In these applications where the thermal properties of the fluid are known and relatively constant during actual operation, thermal flowmeters can be used to measure the mass flow of the fluid because the thermal flow measurement is not dependent upon the pressure or temperature of the fluid.
However, in many applications, the thermal properties of the fluid can be dependent upon fluid composition. In these applications, varying composition of the fluid during actual operation can affect the thermal flow measurement. Therefore, it is important for the thermal flowmeter supplier to know the composition of the fluid so that the proper calibration factor can be used to determine the flow rate accurately. Due to this constraint, thermal flowmeters are commonly applied to measure the flow of pure gases. Suppliers can provide appropriate calibration information for other gas mixtures, however the accuracy of the thermal flowmeter is dependent on the actual gas mixture being the same as the gas mixture used for calibration purposes. In other words, the accuracy of a thermal flowmeter calibrated for a given gas mixture will be degraded if the actual flowing gas has a different composition.
How to Use Thermal Flowmeters
Thermal flowmeters are most commonly used to measure the mass flow of clean gases, such as air, nitrogen, hydrogen, helium, ammonia, argon, and other industrial gases. Mixtures, such as flue stack flow and biogas flow, can be measured when their composition is known. An advantage of this technology is its dependence upon thermal properties that are almost independent of gas density. Be careful when using thermal flowmeters to measure the flow of gases with unknown and/or varying composition, such as hydrogen-bearing off-gases and other mixtures that can disproportionately affect the thermal flowmeter measurement.
Thermal flowmeters can be applied to clean, sanitary, and corrosive gases where the thermal properties of the fluid are known. Thermal flowmeters are most commonly applied to measure pure gases, such as would be used for laboratory experiments, and in semi-conductor production. They can also used in chemical and petrochemical plants when the thermal properties of the gas are known. With proper attention to materials of construction, the flow of corrosive gases, such as hydrogen chloride and hydrogen sulfide can be measured.
Application Cautions for Thermal Flowmeters
Thermal flowmeters should not be applied to abrasive fluids because they can damage the sensor. Fluids that coat the sensor can alter the relationship between the thermal properties of the fluid and the measurement and adversely affect the flow measurement. Extensive coating can render the sensor inoperable unless the sensor is routinely cleaned. This can increase maintenance associated with these flowmeters.