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Gas Turbine Flow Meter Stainless Steel DN40 Threaded Connection
Gas Turbine Flow Meter stainless steel flange connection
Gas Turbine Flow Meter stainless steel material
Gas Turbine Flow Meter stainless steel side view
Gas-Turbine-Flow-Meter-with-temperature-and-pressure-compensation-threaded-connection
Gas Turbine Flow Meter Stainless Steel DN40 Threaded Connection
Gas Turbine Flow Meter stainless steel flange connection
Gas Turbine Flow Meter stainless steel material
Gas Turbine Flow Meter stainless steel side view
Gas-Turbine-Flow-Meter-with-temperature-and-pressure-compensation-threaded-connection

Gas Turbine Flow Meter-Natural Gas

Gas Turbine Flow Meter is an ideal instrument for gas metering, natural gas, gas pressure regulating station metering and gas trade metering.

1. Using a new type of sensor, it has low initial flow rate, small pressure loss, and good anti-vibration and anti-pulse flow properties. Not easy to corrode, good reliability and long service life.
2. Using advanced micro-power technology, the whole machine has low power consumption. It can be powered by the internal battery for long-term operation, and can also be powered by external power supply.
3. Adopting EEPROM data storage technology, it has the storage and query functions of historical data. Three historical data recording methods are available for users to choose.
4. The flow meter head can be rotated at 180°C, making installation and use simple and convenient.
5. High accuracy, generally up to ±1.5%R, ±1.0%R
6. It can detect the temperature, pressure and flow rate of the gas being measured, and can automatically track and compensate the flow rate.

Gas Turbine Flow Meter Description

Gas Turbine Flow Meter integrates temperature, pressure, flow sensors and intelligent flow totalizer into one.

It has excellent low-pressure and high-pressure metering performance and multiple signal output methods. It is especially suitable for use with computer control systems such as secondary displays, PLC, and DCS.

The temperature and pressure compensated Gas Turbine Flow Meter can integrate flow, temperature, and pressure detection functions, and can automatically compensate for temperature, pressure, and compression factors.

Therefore, the Gas Turbine Flow Meter is an ideal gas flow detection instrument for the volume flow and total amount of low-viscosity gases in closed pipelines and natural gas measurement.

Gas Turbine Flow Meter Technical Data

Flow Range

Diameter mm Model Standard range
m³/h
Model Extended range
m³/h
Regular pressure resistance level
MPa
Specially made high pressure grade
Mpa
Installation method Maximum pressure loss
KPa
DN25 S 2.5-25 W 4-40 1.6 6.3,4.0 flange, thread 1.5
DN40 S 5-50 W 6-60 1.6 6.3.4.0 flange, thread 1.5
DN50 S1 6-65 W1 5-70 1.6 6.3,4.0 flange, thread 0.5
S2 10-100 W2 8-100 1.6 6.3,4.0 flange, thread 1
DN80 S1 13-250 W 10-160 1.6 6.3 flange 1
S2 20-400 13-250 1.6 6.3 flange 2.5
DN100 S1 20-400 W 80-1600 1.6 6.3 flange 1
S2 32-650 50-1000 1.6 6.3 flange 1.5
DN150 S1 32-650 W 80-1600 1.6 4 flange 1
S2 50-1000 13-2500 1.6 4 flange 2
DN200 S1 80-1600 W 320-6500 1.6 4 flange 0.5
S2 130-2500 650-13000 1.6 4 flange 1
DN250 S1 130-2500 W 1.6 2.5 flange 0.5
S2 200-4000 1.6 2.5 flange 1.5
DN300 S 200-4000 W 1.6 2.5 flange 1
DN350 S 400-8000 W 1.6 flange 1.5
DN400 S 650-13000 W 1.6 flange 2

Get Natural Gas and Other Gas Measurement Solutions

Sino-Inst Gas Turbine Flow Meter is mainly used for flow measurement of natural gas, air, nitrogen and other medium fluids in industrial pipelines. Measuring the volume flow under working conditions is almost not affected by fluid density, pressure, temperature, viscosity and other parameters.

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Gas Turbine Flow Meter Applications

Gas Turbine Flow Meter plays an important role in industrial production as an efficient and accurate flow measurement solution. Its advantages include high accuracy, wide measuring range, fast response and no pressure loss.

In applications in many fields, gas turbine flow meters can provide reliable gas flow measurement data to help companies achieve process control, energy management, quality control and other goals.

Its main applications are summarized as follows:

  • Trade measurement, natural gas transmission and distribution pipeline network, city gas, etc.;
  • Process control, petrochemical industry, electric power, industrial boilers, etc.;
  • Standard tables of standard devices usually require an accuracy level of no less than 0.2.
Gas Turbine Flow Meter-Natural Gas Detail Display
More Detail

Gas Turbine Flow Meter Working Principle

When the airflow enters the flowmeter, it first passes through the leading structure of the independent movement and accelerates. Under the action of the fluid, since the turbine blades are at a certain angle with the flow direction of the fluid, the turbine generates a rotational torque. After the turbine overcomes the resistance torque and frictional torque, it starts Turn.

When the resistance torque reaches balance, the rotation speed is stable, and the turbine rotation speed has a linear relationship with the flow rate. The sensor reluctance is periodically changed by a rotating magnet on the transmitter disk. As a result, a pulse signal with a frequency proportional to the fluid volume flow is induced at both ends of the sensor.

After the signal is amplified and shaped by the preamplifier, the pressure and temperature signals detected by the pressure and temperature sensor are simultaneously transmitted to the flow totalizer for processing. Directly displays the standard volume flow rate and standard volume total.

Gas Turbine Flow Meter Structure

The flow totalizer consists of temperature and pressure detection analog channels, flow sensor channels and microprocessing units, and is equipped with various output modules.

The microprocessor in the flow meter performs temperature and pressure compensation according to the gas equation and automatically corrects the compression factor. The gas equation is as follows:

Qn = Zn/Zg(Pg + Pa)/P n・Tn/Tg・Qg

In the formula:

Qn —Volume flow in standard state(m³/h)
Qg —Uncorrected volume flow(m³/h)
Pg —Gauge pressure at the pressure detection point of the flowmeter (KPa)
Pa —Local atmospheric pressure (KPa )
Tg —Absolute temperature of the medium (273.15 + t) k
t —Temperature of the measured medium (°C)
Zn—Compression coefficient in standard conditions
Zg —Coefficients for operating conditions
Tn—Absolute temperature in standard conditions(293.15k)
Pn—Standard atmospheric pressure (101.325KPa)

Note: For natural gas Zn/Zg=(Fz)2, Fz is called the super-compression factor and is calculated according to the formula in China National Petroleum Corporation’s standard SY/T6143-1996.

Why Choose Gas Turbine Flowmeter to Measure Natural Gas?

The gas turbine flowmeter bearings are well made and the guide vanes are specially designed. It can reduce wear and ensure measurement reliability under extreme conditions.

Its output signal is pulse and easy to digitize.

The instrument coefficient and linearity of gas turbine flowmeters are less affected by pressure changes. If matched with a secondary instrument with special functions, it can also perform quantitative control, over-quantity alarm, etc. Therefore, it has been widely used in the fields of petroleum, liquefied gas and natural gas.

What Gases Can the Gas Turbine Flowmeter Measure?

The gas turbine flowmeter can measure natural gas, air, nitrogen, propane, acetylene and other gases, but it cannot be used to measure oxygen, hydrogen, biogas and other gases.

why? This is about its structure and working principle.

As the name suggests, the important components in the gas turbine structure are the bearings and impeller. When the gas flows through the instrument, it will push the impeller to rotate. The speed of the impeller rotation is proportional to the flow rate of the gas. After signal processing and calculation, the gas flow rate can be obtained.

Since the impeller is a movable part, it constantly rubs against the gas during rotation. Oxygen, hydrogen, and biogas are all flammable gases, so it is not recommended to use a gas turbine flowmeter to measure them.

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