Monthly Archives: September 2020

Vortex Compressed Air Flow Meter

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Compressed air flow meter is a upgraded and improved gas vortex flow meter. The karman vortex air flow sensor is researched and produced according to the Karman vortex principle.

Vortex Compressed Air Flow Meter

Compressed air is an important energy source for manufacturing companies. Therefore, accurate measurement is of great significance to energy saving, emission reduction and cost accounting in the factory. Sino-Inst Vortex compressed air flowmeter is resistant to pipeline vibration. The value is not easy to jump randomly. An excellent partner for you to achieve accurate measurement. Integrated temperature and pressure compensation. The compensated instantaneous flow and cumulative flow can be read directly on the meter, Temperature, pressure and other data.

Vortex compressed flow meter reference price: USD 300-1500/pc.

Sino-Inst offers a variety of  Vortex flow meters for flow measurement. If you have any questions, please contact our sales engineers.

Request a Quote
Vortex Flow Meters

Features of Vortex Compressed Air Flow Meter

  1. Easy to install. Suitable for the measurement of compressed air, nitrogen, argon and other gases;
  2. Integrated temperature and pressure dual compensation. The instantaneous flow and accumulated flow, temperature, pressure and other data after compensation can be directly read on the meter head;
  3. The most advanced FFT spectrum analysis digital signal processing technology is adopted. The lower limit is low and the anti-vibration performance is excellent. It can be installed at the outlet of the air compressor to measure the air output of the air compressor;
  4. RS485 communication output. Equipped with related conversion modules, it can output wireless signals such as NB and GPRS, which can be used with the Internet of Things platform;
  5. Simple structure, no holes and gaps design. No wear, stain resistance, no moving parts. Low failure rate, high stability and reliability;
  6. The vortex flowmeter uses the latest signal processing technology, and the entire system analyzes the measured signal. Then eliminates external interference and media disturbance. Therefore, stable measurement can be achieved even in harsh process conditions;
  7. The piezoelectric element of the vortex flowmeter is embedded in the probe body. It does not touch the medium, and there is no filler inside. The pressure loss is small and the service life is long;
  8. The original signal formed by the vortex flowmeter. The output frequency and flow rate are linear. There is no zero drift problem.

Specifications of Vortex Compressed Air Flow Meter

Measuring mediumcompressed gas
Measuring rangeSee the flow range table of vortex flowmeter for details
口 PathDN15~DN600
Connection methodWafer type, flange type
Medium temperature (℃)(-40~80)℃、(-40~400)℃
Environment temperature (℃)(-30~+65)℃ Atmospheric pressure: 86kPa~106kPa
Accuracy1.0%, 1.5%
Velocity range (m/s)1.5~60
Output signal1: No local display frequency signal: high level≥5V low level 1V, square wave, pulse duty ratio: 1:1, emitter follower output (optional open collector output)
2: Standard current signal; (4-20) mA standard current signal proportional to the flow
3: Local display instantaneous flow, cumulative flowmeter. Simultaneously output proportional (4-20) mA standard current signal and pulse frequency signal or (4-20) mA+HART
4: Communication method: RS485 communication
Power supplyVoltage pulse type: DC12V, DC24V
Standard current output, local display: DC24V
Battery powered local display lithium battery: 3.6V
Ambient temperatureAmbient temperature (-40~+55) ℃, relative humidity 5~90 ​​(%),
atmospheric pressure: 86kPa~106kPa
Protection levelIP65 is used for indoor and outdoor installation,
IP68 can be used for diving installation
Explosion-proof gradeIntrinsically safe Ex ia ⅡC T6 Ga
ShowInstantaneous standard flow, cumulative standard flow, pressure, temperature, instantaneous working condition flow, instantaneous cumulative flow, frequency
Cable interfaceM20×1.5 (internal thread, recommended); 1/2NPT (internal thread)

Extended Reading: Digital air flow meters

Compressed Air Flow Meter Working Principle

The vortex compressed air flowmeter is a volume flowmeter that measures the volume flow of gas, steam or liquid, the volume flow or mass flow of the standard condition according to the Karman vortex principle.

When a triangular cylindrical vortex generator is installed in the fluid, regular vortices are alternately generated from both sides of the vortex generator. This type of vortex is called Karman vortex. When the fluid passes through the vortex flow transmitter in the pipeline, two rows of vortices proportional to the flow velocity are alternately generated up and down behind the vortex generator of the triangular column. The release frequency of the vortex is related to the average velocity of the fluid flowing through the vortex generator and the characteristic width of the vortex generator.

The temperature compensation integrated vortex flowmeter also has a temperature sensor. The temperature of saturated steam can be directly measured and the pressure can be calculated. This shows the mass flow of saturated steam.

The temperature and pressure compensation integrated type is equipped with temperature and pressure sensors for gas flow measurement. The temperature and pressure of the gas medium can be directly measured to display the standard volume flow rate of the gas.

Read more about: Importance Of Air Flow Measurement

Compressed Air Flow Measurement

Compressed air is an important secondary energy source for industrial production. Most of it is converted from electrical or thermal energy through compressors. The working fluids converted from a large amount of energy are managed to achieve the effect of saving energy and improving equipment management. Compressed air It is an important economic indicator for cost accounting of enterprises and institutions. This is the main purpose of compressed air flow measurement.

Compressed air flow is an important parameter that expresses the performance of an air compressor, and it is also an important parameter measured in an industrial process. With the widespread application of air compressors, accurate measurement of its flow is essential for product upgrades, industrial production process control and monitoring, and energy conservation and emission reduction.

Compressed air has the following characteristics. Sino-Inst suggestion: Combine the characteristics of compressed air to make a reasonable selection of compressed air flow meters.

Large vibration

Of course, not every air flow meter is installed in places with high vibration. However, the air flow meters installed in the compression plant and the blower room have to consider vibration issues. This vibration mainly comes from compressors and blowers.

The vibration of the machine can be transmitted to a long distance through the air duct or duct. Among them, the largest vibration is the reciprocating compressor. The vibration generated during the operation of large reciprocating compressors often drives the workshop and the surrounding ground to vibrate together. It poses a threat to the accurate and reliable operation of related air flow meters. It causes the fulcrum of the lever-type differential pressure transmitter to move and causes the meter to drift in indication. Vibration causes the vortex flow sensor to produce an interference signal corresponding to the vibration frequency, causing the flow indication to be significantly higher.

Gas with water

Compressed air is taken from the atmosphere, and the atmosphere always contains a certain amount of water vapor. The content of water vapor is expressed by the partial pressure of water vapor ps.

In rainy and foggy days, the partial pressure of water vapor in the outdoor atmosphere reaches saturation. That is, the relative humidity reaches 100%. At this time, compressing the atmosphere is like compressing a sponge that absorbs enough water. As the volume shrinks, there is a corresponding amount Water precipitates. This is the simple principle of compressed air with water.

In fine weather, the relative humidity of the atmosphere is low. However, as it is compressed and reduced to a fraction of its original volume, the partial pressure of water vapor will increase accordingly, and it may also enter a saturated state and precipitate water droplets.

Large-caliber orifice flow meters used to measure the flow of compressed air often have water in front of the orifice, which will affect the accuracy of the measurement. There is often a section of water in the impulse pipeline, causing the differential pressure measured by the differential pressure transmitter to be inconsistent with the differential pressure produced by the throttling device. These are common causes of errors caused by water in the air.

In addition, due to the high nitrogen oxide content in the urban atmosphere, the water droplets contained in the compressed air are acidic, causing corrosion on the surface of the annular chamber and corrosion of the inner wall of the pipeline. The surface becomes rough.

When the iron oxide produced by corrosion becomes dry under certain conditions, it is easy to fall off from the inner wall of the pipe and be carried by the airflow to the front of the orifice plate. This will also affect the flow rate indication. Therefore, these powdery and massive garbage should be removed when the flow is stopped for maintenance.

Pulsating flow

Most of the compressor and blower outlet fluids contain certain pulsation. For example, a reciprocating compressor exhibits half-wave pulsation. Observed at the scene that the outlet pressure of the compressor and blower swings significantly.

Among them, the pulsation frequency of the outlet of the positive (constant) displacement blower is relatively high, generally tens of Hz. The pulsation frequency of the outlet of the reciprocating compressor is relatively low, generally a few hertz.

Flow arterial movement causes high indications of various flowmeters such as differential pressure flowmeters and vortex flowmeters. Cause the float in the float flowmeter to jump up and down.

There are two common methods to eliminate and weaken the influence of flow arterial movement on the value of the flow meter.

One is to install a buffer tank at the compressor outlet to filter out pulsation. Instead, install the flowmeter behind the buffer. In fact, the systems of reciprocating compressors are designed in this way.

The second is to install the flowmeter away from the source of pulsation. In this way, the gas capacity of the process pipeline and its pipe resistance can be used to form a low-pass filter to attenuate the pulsation.

Read more about: Rotameter flow meter-Variable Area Flow Meters. Suitable for liquid and gas volumetric flow measurement and control.

Is temperature and pressure compensation required for Compressed Air Flow Meter?

Many users encounter such troubles: I am measuring compressed air, do I need temperature and pressure compensation?

SIno-Inst relieves your worries:

Whether you need temperature and pressure compensation depends on your requirements for measurement accuracy.

If you have high requirements for measurement accuracy, temperature and pressure compensation is the most accurate.

If you are not demanding and want to save costs, and the pressure fluctuation is not large, you do not need temperature and pressure compensation.

Extended reading: Featured Cheap flow meters for Sale

More Featured Compressed Air Flow Meter

Sino-Instt offer over 10 Vortex Compressed Air Flow Meters, with Best Price.

A wide variety of Vortex Compressed Air Flow Meters options are available to you, such as free samples, paid samples. All of our flow meters can wokrk with the AMS NEW TREX.

About 13% of these are magnetic flow meter, 14% are Insertion Magnetic Flow Meter, 25% are Venturi flow meter, 13% are Handheld ultrasonic flow meter, and others are Liquid Turbine Flow Meters.

Sino-Inst is Vortex Compressed Air Flow Meterr suppliers, located in China. Vortex shedding flow meter products are most popular in North America, Mid East, and Eastern Europe.

Vortex Flow Meters

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Vortex flow meter also called Vortex shedding flow meter. Vortex Flow Meter is suitable for flow measurement of steam and various liquids and gases.

What is Vortex Flow Meter?

The vortex flowmeter is a volume flow meter that measures the volume flow of gas, steam, or liquid, the volume flow of standard conditions, or the mass flow of gas, steam, or liquid-based on the Karman vortex principle. When the fluid flows through the dust collector rod of the vortex flowmeter, a vortex is formed. The frequency of vortex shedding is proportional to the fluid velocity. Temperature and pressure compensation can be configured.

Sino-Inst offers a variety of  Vortex flow meters for flow measurement. If you have any questions, please contact our sales engineers.

Request a Quote
More Flow Meters

Featured Vortex Flow Meters

Vortex Shedding Flow Meter
Vortex Steam Flow Meter
Insertion Vortex Flow Meter
Vortex Compressed Air Flow Meter
Threaded Vortex Gas Flow Meter
Vortex Split Flow Meter
Voretx Sanitary Flow Meter
Wafer Flange Vortex Flowmeter

Vortex Flow Meter Applications

The vortex flowmeter is mainly used in the flow measurement of industrial pipeline medium fluid. The medium can be gas, liquid, steam, etc.

Read more: Vortex flow meter for Steam Flow Measurement

The main scope of action includes:

  • During industrial production, such as metallurgy, coal, electric power, chemical, pharmaceutical, environmental protection and other manufacturing;
  • Energy measurement. Including the scientific measurement of primary and secondary energy. Such as coal, petroleum gas, natural gas, etc., to achieve energy saving and reduce consumption;
  • Environmental protection engineering. Including flow measurement of flue gas, sewage, etc.;
  • Transportation. Including pipeline transportation for control, distribution and scheduling, and better economic accounting through measurement results.

Extended reading: High Pressure Rotameter for Liquids/gas-Upto 25 Mpa

Vortex Flow Meter Working Principle

Vortex flowmeter is a speed-type flowmeter produced according to karman’s vortex principle,
which can be used for the measurement and measurement of conventional gas, steam and
liquid.

Vortex flow sensor has high precision and wide range ratio, no moving parts in use, which can
improve mechanical stability and reduce maintenance.Vortex flowmeter is almost not affected by the temperature, pressure and composition of medium when measuring the volume of working condition.

Therefore, it is convenient to calibrate the instrument, so vortex street flow sensor is widely used in production and life.

When a trigonal column vortex generator is set in the fluid, regular vortices are generated alternately on both sides of the vortex generator, which is called Carmen vortex.

The vortex columns are arranged asymmetrically downstream of the vortex generator. Vortex flowmeter is produced according to this principle.

Vortexes are generated by generating bodies and the number of vortexes is detected by high-sensitivity sensors. In a certain range, the number of vortexes generated is proportional to the flow rate.

In vortex flowmeter, the relationship between flow rate and the number of vortexes generated
can be expressed by the following formula:

Q:Operating volume flow of the measured medium. The unit is m3/h。
F:Frequency of the number of vortices produced by the generating body. The unit is Hz.
K:Refers to the calculated or calibrated flow coefficient. It represents how many frequency signals per cube. the coefficient is usually obtained by calibration.

The formula of standard table method calibration coefficient K:

The formula can also be used for flow correction.

More about vortex flow meter working principle wikipedia.

Endress+Hauser has a great explanation video about vortex flow meter working principle. Let’s take a look!

Vortex flow meter advantages and disadvantages

Advantages of vortex flowmeter

  • The pressure loss is small, about 1/4 to 1/2 of the throttling differential pressure flowmeter.
  • Output a pulse signal proportional to the flow rate, without zero drift.
  • The structure is simple, firm, easy to install and maintain. There is no need for pressure guiding pipe and three-valve group, etc., reducing leakage, blockage and freezing. The measuring element has simple structure, reliable performance and long service life.
  • The accuracy is high, generally ±(1~1.5)%R.
  • The measuring range is wide, the vortex flowmeter with a reasonable caliber is determined, and the range can reach 20:1.
  • Within a certain Reynolds number range, the output frequency of the orifice flowmeter is not affected by the physical properties (density, viscosity) and composition of the fluid, that is, the meter coefficient is only related to the shape and size of the vortex generator and the pipeline.
  • The volume flow of the vortex flowmeter is not affected by thermal parameters such as the temperature, pressure, density or viscosity of the fluid being measured. Generally, no separate calibration is required. It can measure the flow of liquid, gas or steam.

Disadvantages of vortex flowmeter

(1) The volume flow of the vortex flowmeter is not affected by the temperature, pressure, density and other thermal parameters of the measured fluid, but the final measurement result of liquid or steam should be the mass flow. For gas, the final measurement result Should be the standard volume flow. Both the mass flow rate or the standard volume flow rate must be converted by fluid density, and changes in fluid density caused by changes in fluid working conditions must be considered.

(2) The main factors that cause flow measurement errors are: measurement errors caused by uneven flow velocity of the pipeline; the density of the medium when the fluid working condition changes cannot be accurately determined; the wet saturated steam is assumed to be dry saturated steam for measurement. If these errors are not limited or eliminated, the total measurement error of the vortex flowmeter will be very large.

Extended Reading: FMCW Radar for High Temperature Level Sensor

(3) Poor vibration resistance. External vibration will cause measurement errors of the vortex flowmeter, or even fail to work normally. The high-velocity impact of the channel fluid will cause additional vibration to the cantilever of the vortex generator, which will reduce the measurement accuracy. The influence of large pipe diameter is more obvious.

(4) Poor adaptability to measuring dirty media. The generating body of the vortex flowmeter is very easy to be dirty by the medium or entangled by the dirt, and the change of the geometric body size has a great influence on the measurement accuracy.

(5) High requirements for straight pipe sections. Experts pointed out that the straight pipe section of the vortex flowmeter must ensure the front 40D and the 20D to meet the measurement requirements.

(6) Poor temperature resistance. Vortex flowmeters generally can only measure the fluid flow of media below 300°C.

There are several classification methods of vortex flowmeter as follows.

(1)Classification by detection method

Vortex detection method is the key technology of vortex flowmeter, according to the vortex detection principle and method can be divided into:

  • Strain vortex flowmeter;
  • Strain relief vortex flowmeter;
  • Capacitive vortex flowmeter;
  • Photoelectric vortex flowmeter;
  • Thermal vortex flowmeter;
  • Ultrasonic vortex flowmeter;
  • Magnetoelectric vortex flowmeter.

(2) According to the sensor structure form classification can be divided into:

  • Pipe type vortex flowmeter. Generally used for small and medium diameter pipe flow measurement;
  • Insertion type vortex flowmeter. Mostly used for large-diameter pipeline flow measurement.

(3) According to the use of flowmeter can be divided into:

  • Explosion-proof vortex flowmeter. Used in petroleum, chemical industry for the instrument explosion-proof requirements of the occasion;
  • High-temperature vortex flowmeter. For the measurement of high-temperature media;
  • Ultra-low temperature type vortex flowmeter. Used for liquid nitrogen, liquid oxygen, and other ultra-low temperature medium measurement;
  • Corrosion-resistant vortex flowmeter. Used for acid, alkali, salt, and other corrosive media measurement;
  • Mass type vortex flowmeter. Used for the measurement of fluid quality.

(4)According to the function of the instrument can be divided into:

  • Conventional vortex flowmeter;
  • Intelligent street flowmeter. Can be signal detection, processing, compensation operation, display, output in one.

Read more about: Inline gas flow meter

Vortex flow meter installation

Vortex flow meter has certain requirements on the upstream and downstream straight pipe
section of the installation point, otherwise it will affect the flow field of medium in the pipeline and affect the measuring accuracy of the meter. The length of the upstream and downstream straight pipe section of the instrument is required as shown in FIG. DN is the nominal diameter unit of the instrument :mm.

Vortex flow meter pressure drop

Calculate whether the pressure loss has an impact on the process pipeline, calculated by the following formula:

DP=1.2r × V2(Pa)

Where:
DP: Pressure loss (Pa)
r: density of medium (Kg/m3)
V: Average flow velocity in the pipe (m/s)

When the measured medium is liquid, in order to prevent vaporization and cavitation, the liquid pressure of the sensor should meet the requirements of the following formula:
P≥2.6DP + 1.25P1 (Pa absolute pressure)

Where:
DP: pressure loss value (Pa)
P1: The vapor pressure of the fluid (Pa absolute pressure)

What are vortex flow meters used for?

Vortex flowmeter is mainly used for industrial pipeline medium fluid flow measurement. Such as gas, liquid, vapor and other media. Here are some related applications.

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Extended reading: Ultrasonic Flow Meters Types & Technical Guide

Vortex Flow Meter Price

Price is always a topic of concern. Different types of vortex flowmeters can be found online, and the prices of different vortex flowmeter manufacturers are not consistent. The final quotation is still subject to the actual working conditions on site.

Vortex flow meters have different prices due to different calibers, different materials, different media, and different functions! The price list of vortex flowmeter is attached below for reference.

This is a reference price only. Not the price of the order transaction. Please contact our sales engineers. According to the measurement conditions, choose the appropriate model to confirm the price.

Full-tube piezoelectric vortex flow sensor
(Including special flanges, bolts, and nuts)		DN15515 559 
DN20326 312 415 
DN32357 312 415 
DN65349 363 488 
DN80378 407 488 
DN125459 503 606 
DN250518 569 509 
DN300500 544 662 
DN600544 588 662 

Extended Reading: Types Of Crude Oil Flow Meters

Related Products:

Gas Thermal Mass Flow Meter
Precession Vortex Gas Flowmeter
Gas Turbine Flow Meter
Low temperature Turbine Flowmeter
Gear flow meter for Micro flow
V-Cone Flow Meter
Digital Air Mass Flow Meter
Rotameter flow meter-Variable Area Flow Meters
Liquid mass flow controller
Gas mass flow controller
 Coriolis Flow Meter
V-series Curved Digital Mass

Extended reading: Flow Totalizer F3000X for Data collection and calculation

Sino-Inst, Manufacturer for Vortex Flow Meters, like gas vortex flow meter, liquid vortex flow meter, sanitary vortex flow meter, insertion vortex flow meter, steam vortex flow meter, and natural gas vortex flow meter.

Sino-Inst’s vortex Flow Meters, made in China, Having good Quality, With better price. Our flow measurement instruments are widely used in China, India, Pakistan, US, and other countries.

Turbine Pulse Flow Meter

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Turbine Pulse Flow Meter refers to a turbine flow meter that can be configured with pulse output. DN4~DN300, 304 stainlees steel, 316 stainlees steel, PE materials are available. It is widely used in measuring the flow of various liquids, including water, aqueous solution, hydraulic oil, etc.

The turbine flowmeter outputs pulse signal is used to detect the instantaneous flow rate and the total integrated flow rate. And is suitable for use with computer control systems such as secondary displays, PLCs, and DCS.

Turbine Pulse Flow Meter is a low-cost flow meter, reference price: USD 300-700/pc.

Sino-Inst offers a variety of  Turbine flow meters for flow measurement. If you have any questions, please contact our sales engineers.

Request a Quote
Turbine Flow Meters

Features of Turbine Pulse Flow Meter

  1. High accuracy. Generally up to ±1%R, ±0.5%R;
  2. Good repeatability. Short-term repeatability can reach 0.05%~0.2%;
  3. Output pulse frequency signal. Suitable for total measurement and connection with computer. No zero drift, strong anti-interference ability;
  4. High frequency signals (3~4kHz) can be obtained, with strong signal resolution;
  5. Wide range. Medium and large diameters can reach 1:20. Small diameters are 1:10;
  6. Compact and lightweight structure. Easy installation and maintenance, large circulation capacity;
  7. Suitable for high-pressure measurement. No holes are required on the meter body. It is easy to make high-pressure meters;
  8. There are many types of special sensors. Various special sensors can be designed according to the special needs of users. Such as low temperature type, two-way type, downhole type, etc.;
  9. It can be made into a plug-in type, suitable for large-caliber measurement. The pressure loss is small, the price is low. It can be taken out continuously, and the installation and maintenance are convenient.

Extended reading: Turbine Flow Meter Advantages and Disadvantages

Specifications of Turbine Pulse Flow Meter

Instrument caliber and connection method4, 6, 10, 15, 20, 25, 32, 40 use threaded connection
15, 20, 25, 32, 40) 50, 65, 80, 100, 125, 150, 200 using flange connection
Accuracy class±1%R, ±0.5%R, ±0.2%R (specially required)
Turndown ratio1:10; 1:15; 1:20
Instrument material304 stainless steel, 316 (L) stainless steel, etc.
Temperature of measured medium (℃)-20~+110℃
Environmental conditionsTemperature -10~+55℃, relative humidity 5%~90%, atmospheric pressure 86~106Kpa
output signalSensor: Pulse frequency signal, low level≤0.8V High level≥8V
Transmitter: two-wire 4 ~ 20mADC current signal
Power supplySensor: +12VDC, +24VDC (optional)
Transmitter: +24VDC
On-site display type: the meter comes with 3.2V lithium battery
Signal transmission lineSTVPV3×0.3 (three-wire system), 2×0.3 (two-wire system)
Transmission distance≤1000m
Signal line interfaceBasic type: Hessman connector, explosion-proof type: internal thread M20×1.5
Explosion-proof gradeBasic type: non-explosion-proof product, explosion-proof type: ExdIIBT6
Protection levelIP65
Instrument caliber  (mm)Normal flow range (m3/h)Extended flow range(m3/h)Routine stress tolerance (MPa)Special pressure rating (MPa) (MPa)
DN 40.04-0.250.04-0.46.312、16、25
DN 60.1-0.60.06-0.66.312、16、25
DN 100.2-1.20.15-1.56.312、16、25
DN 150.6-60.4-86.3、2.5(Flange)4.0、6.3、12、16、25
DN 200.8-80.45-96.3、2.5(Flange)4.0、6.3、12、16、25
DN 251-100.5-16.3、2.5(Flange)4.0、6.3、12、16、25
DN 321.5-150.8-156.3、2.5(Flange)4.0、6.3、12、16、25
DN 402-20 1-206.3、2.5(Flange)4.0、6.3、12、16、25
DN 504-402-402.54.0、6.3、12、16、25
DN 657-704-702.54.0、6.3、12、16、25
DN 8010-1005-1002.54.0、6.3、12、16、25
DN 10020-20010-2001.64.0、6.3、12、16、25
DN 12525-25013-2501.62.5、4.0、6.3、12、16
DN 15030-30015-3001.62.5、4.0、6.3、12、16
DN 20080-80040-8001.62.5、4.0、6.3、12、16

Know more about: Turbine type Flow Meter

Turbine Pulse Flow Meter Working Principle

When the fluid flows through the sensor housing, since the blades of the impeller are at a certain angle to the flow direction, the impulse of the fluid causes the blades to have a rotational torque. After overcoming the friction torque and fluid resistance, the blades rotate. After the torque is balanced, the rotational speed becomes stable.

Under certain conditions, the rotational speed is proportional to the flow rate.

Since the blade is magnetically permeable, it is in the magnetic field of the signal detector (composed of permanent magnet steel and a coil). The rotating blade cuts the magnetic lines of force, periodically changing the magnetic flux of the coil. This causes an electrical pulse signal to be induced at both ends of the coil. This signal is shaped by the amplifier to form a continuous rectangular pulse wave with a certain amplitude. It can be remotely transmitted to the display instrument to display the instantaneous flow rate or cumulative total volume of the fluid.

Within a certain flow range, the pulse frequency f is proportional to the instantaneous flow rate Q of the fluid flowing through the sensor. The flow equation is:

Q=3600*f/k

In the formula:
f—Pulse frequency [Hz]
K-sensor instrument coefficient [1/m3], given by the calibration sheet.
Q-instantaneous flow rate of fluid (under working condition) [m3/h]
3600-conversion factor

The instrument coefficient of each sensor is filled in the calibration certificate by the manufacturer. The K value is set into the matching instrument. The instantaneous flow and cumulative total can be displayed.

FAQ

A pulse flow meter operates by converting the flow rate into a series of electrical pulses. Typically, as the fluid flows through the meter, a mechanical or electronic component will generate pulses. The frequency of these pulses is directly proportional to the flow rate. The generated pulses are then counted and processed by an electronic system to display or record the flow rate. The principle is akin to turning the pages of a book – the faster you turn, the more pages (or pulses) you go through in a given time.

Pulse flow meters are versatile and can be used in various applications, from water distribution to chemical processing.

Yes, a turbine flow meter is specifically designed to measure the flow rate of a fluid. As the fluid passes through the meter, it impinges on the blades of a freely rotating turbine. The speed of the turbine’s rotation is directly proportional to the flow rate. By measuring the rotational speed, the flow rate can be determined.

Turbine meters are commonly used in hydrocarbon industries and are suitable for clean, low-viscosity fluids.

A turbine flow meter is a type of flow measurement device that uses a rotating turbine or impeller to measure the velocity of a fluid. As the fluid flows through the meter’s body, it causes the turbine to rotate. The rotation speed of the turbine is then directly related to the fluid velocity, allowing the flow rate to be calculated. The rotational speed is typically detected using magnetic or optical sensors.

Turbine flow meters have been in use for decades and are recognized by industry standards for their reliability in certain applications.

Turbine flow meters are generally accurate for specific applications, especially when measuring clean and low-viscosity liquids. Their accuracy can range from ±0.5% to ±1.5% of reading, depending on the make and model. However, their performance can be affected by fluid properties, wear and tear of the turbine blades, and the presence of impurities in the fluid.

Trustworthiness Note: For the best results, it’s essential to calibrate turbine flow meters regularly and ensure they are used within the recommended flow range and conditions.

Pulse Output Flow Meter

Pulse flowmeter refers to a type of flowmeter that can express flow in pulse form. The most common one is turbine flowmeter.

A turbine is placed in the center of the pipeline, and the two ends are supported by bearings. When the fluid passes through the pipeline, it impacts the turbine blades. The driving torque is generated to the turbine, so that the turbine overcomes the friction torque and the fluid resistance torque to generate rotation.

Within a certain flow range, for a certain fluid medium viscosity, the rotational angular velocity of the turbine is directly proportional to the fluid flow velocity. Thus, the fluid velocity can be obtained by the rotational angular velocity of the turbine. The fluid flow through the pipeline can be calculated.

The speed of the turbine is detected by a sensor coil installed outside the casing.

When the turbine blade cuts the magnetic field lines generated by the permanent magnet steel in the casing, it will cause the magnetic flux in the sensing coil to change. The sensing coil sends the detected magnetic flux periodic change signal to the preamplifier, amplifies and reshapes the signal, and generates a pulse signal proportional to the flow rate. It is sent to the unit conversion and flow integration circuit to obtain and display the cumulative flow value. At the same time, the pulse signal is sent to the frequency current conversion circuit. The pulse signal is converted into an analog current quantity, and then the instantaneous flow value is indicated.

Know more about: Turbine type Flow Meter for Liquid & Gas technology

More Featured Pulse Output Flow Meters

Magnetic Water Flow Meter
Remote Magnetic Sewage Flow Meter
Insertion Magnetic Flow Meter
Low temperature Turbine Flowmeter-Liquid Nitrogen Flow Meter
T-series Triangle Coriolis Mass Flowmeter
Gear flow meter for Micro flow
Strap on flow meter X3
Handheld Ultrasonic Flow Meter

Flow Meter Pulse Output to PLC

The signal output by the flowmeter is generally a pulse signal or a 4-20mA current signal. Both of these signals output instantaneous flow. There is also a relay to output a cumulative signal. The principle is the same, so I will not repeat it.

Our purpose is to calculate and display the instantaneous flow value and calculate the cumulative value in the PLC. When the input signal is a pulse signal, when calculating the instantaneous flow, a strict time interval must be calculated to ensure the accuracy of the instantaneous flow.

Therefore, when calculating the instantaneous flow rate, a timed interrupt must be used.

Extended reading: Quantitative control with turbine flowmeter

Moreover, only this interrupt program can be run in the PLC system, and no other interrupts are allowed. Even low priority interrupts are not allowed to run. To prevent interference with the accuracy of the timing interruption interval. To calculate the instantaneous flow is to convert the number of accumulated pulses in this time period into the accumulated flow. Divided by time is the instantaneous flow.

For 4-20mA input, the instantaneous flow can be directly obtained by simply converting according to its corresponding range. The cumulative flow is the cumulative flow by adding up the cumulative flow in each time period. The following issues must be paid attention to in the actual use of PLC programming:

  1. Whether the input pulse frequency range exceeds the range that the PLC receives;
  2. How to ensure the correct calculation of the PLC high-speed counter when it reaches the maximum count value;
  3. How to ensure that the timing interruption is not disturbed;
  4. How to avoid errors in calculating the cumulative amount;
  5. The maximum cumulative digits of the cumulative amount;
  6. How to reset the cumulative amount;

Extended reading: Turbine Insertion Flow Meter for Large Diameter Pipeline

More Flow Measurement Solutions

Sino-Inst, Manufacuturer for Turbine Pulse Flow Meters, like: gas turbine flow meter, liquid turbine flow meter, sanitary turbine flow meter, insertion turbine flow meter, steam turbine flow meter, and natural gas turbine flow meter.

Sino-Inst’s Turbine Pulse Flow Meters, made in China, Having good Quality, With better price. Our flow measurement instruments are widely used in China, India, Pakistan, US, and other countries.

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Turbine Flow Meters

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Turbine flow meters are velocity flow meters, also called impeller flow meters. Can be used to measure the instantaneous flow and cumulative flow of liquids and gases.

Turbine flowmeters are widely used in flow measurement: petroleum, organic liquids, inorganic liquids, liquefied gas, natural gas, coal gas and cryogenic fluids. Turbine flowmeter signals can be divided into pulse signals or current signals (4-20mA). It is suitable for use with secondary display, PLC, DCS and other computer control systems.

Turbine Flow Meter reference price: USD 200-1700/pc.

Sino-Inst offers a variety of  Turbine flow meters for flow measurement. If you have any questions, please contact our sales engineers.

Request a Quote
Turbine Flow Meters

Featured Turbine Flow Meters

Gas Turbine Flow Meter
Liquid Turbine Flow Meter
Turbine Insertion Flow Meter
Turbine Pulse Flow Meter
Turbine Sanitary flow meter
Low temperature Turbine Flowmeter-Liquid Nitrogen Flow Meter

Features of Turbine Flow Meters

  1. High accuracy, good repeatability, low pressure loss, good vibration resistance;
  2. Adopt high-quality bearings with low friction resistance. Good sealing and long life;
  3. It integrates microprocessor, flow sensor, high-precision temperature and pressure sensor. Directly measure the flow, temperature and pressure of the gas/liquid being measured. And automatically perform flow tracking compensation and compression factor correction operations;
  4. The meter has pulse signal and analog signal output. It can directly realize the centralized collection and real-time management of computer data through the RS485 communication interface or the GPRS system;
  5. Low power consumption. It can be powered by internal battery or external power supply;
  6. With real-time data storage function. It can prevent data loss when the battery is replaced or the power is suddenly lost. In the case of power failure, internal data can be stored permanently;
  7. It can be used in conjunction with IC card prepayment system to facilitate trade settlement;

Turbine Flow Meter Working Principle

Gas turbine flow meter working principle

The gas turbine flowmeter uses a turbine for measurement. It first converts the flow rate into the rotational speed of the turbine, and then converts the rotational speed into an electrical signal proportional to the flow rate.

Gas turbine flowmeter is used to detect instantaneous flow and total integrated flow. Its output signal is frequency, which is easy to digitize.

The induction coil and the permanent magnet are fixed on the housing together. When the ferromagnetic turbine blade passes the magnet, the reluctance of the magnetic circuit changes, thereby generating an induction signal.

The signal is amplified and reshaped by the amplifier and sent to the counter or frequency meter. The total accumulated flow is displayed. At the same time, the pulse frequency undergoes frequency-voltage conversion to indicate instantaneous flow.

The speed of the impeller is proportional to the flow, and the number of revolutions of the impeller is proportional to the total amount of flow. The output of the turbine flowmeter is a frequency modulated signal. It not only improves the anti-interference of the detection circuit, but also simplifies the flow detection system.

The gas turbine flowmeter has a turndown ratio of up to 10:1, and the accuracy is within ±0.2%. The time constant of the turbine flowmeter with small inertia and small size can reach 0.01 second.

Extended reading: Quantitative control with turbine flowmeter

Liquid Turbine Flow Meter Working Principle

Liquid Turbine Flow Meter is a speed type flow meter based on the principle of torque balance.

The fluid flows through the sensor housing. Because the blades of the impeller have a certain angle with the flow direction. The impulse of the fluid makes the blades have a rotational torque. After the friction torque and fluid resistance are overcome, the blades rotate. The speed is stable after the torque is balanced.

Under certain conditions, the speed is proportional to the flow rate.

Due to the magnetic permeability of the blade, it is in the magnetic field of the signal detector (composed of permanent magnets and coils). The rotating blade cuts the magnetic lines of force. The magnetic flux of the coil is periodically changed. Electrical pulse signals are induced at both ends of the coil.

This signal is amplified and reshaped by an amplifier. A continuous rectangular pulse wave with a certain amplitude is formed. It can be transmitted to the display instrument remotely. The instantaneous flow or total amount of the fluid is displayed.

Within a certain flow range, the pulse frequency f is proportional to the instantaneous flow Q of the fluid flowing through the sensor. The flow equation is:

Where:
f——Pulse frequency [Hz]
k——The meter coefficient of the sensor [1/m3], which is given by the calibration sheet.
Q——The instantaneous flow of fluid (under working condition) [m3/h]
3600-conversion factor in seconds

The meter coefficient of each sensor is filled in the verification certificate by the manufacturer. The k value is set in the matching display instrument. The instantaneous flow and cumulative total can be displayed.

Extended reading: Turbine Flow meter Vs Gear Flow meter

Turbine flow meter Advantages and Disadvantages

Turbine Meter Advantages

  • The cost is moderate.
  • Very good at clean, low viscosity fluids of moderate velocity and a steady rate.
  • Turndown is very good as it can read very low compared to the greatest flow.
  • They are reliable if put in a clean fluid especially if it has some lubricity.
  • AGA and API approved for custody transfers.
  • They do cause some pressure drop where that may be a factor such as gravity flows.
  • High accuracy. Among all flowmeters, it is the most accurate flowmeter.
  • No zero drift, good anti-interference ability.
  • High accuracy. Among all flowmeters, it is the most accurate flowmeter.
  • No zero drift, good anti-interference ability.

Extended reading: Featured Cheap flow meters for Sale

Turbine Meter Disadvantages

  • Not reliable for steam.
  • Bearings wear out.
  • Requires constant backpressure to prevent cavitation.
  • Accuracy adversely affected by bubbles in liquids.
  • Turbine meters can be used with clean liquids and gases only (may need to install a strainer upstream to prevent damage from particulates).
  • Not applicable for measuring corrosive fluids.
  • May not function properly with high viscosity fluids where the flow profile is laminar.
  • Cannot maintain calibration characteristics for a long time.

Read more Turbine Flow Meter Application Case: Demineralized Water.

Industries and Applications We Serve

Crude Oil Flow Meter

Crude Oil Flow Meter refers to a type of flow meter that can accurately monitor and measure the flow of…

Sino-Inst, Manufacuturer for Turbine Flow Meters, like: gas turbine flow meter, liquid turbine flow meter, sanitary turbine flow meter, insertion turbine flow meter, steam turbine flow meter, and natural gas turbine flow meter.

Sino-Inst’s Turbine Flow Meters, made in China, Having good Quality, With better price. Our flow measurement instruments are widely used in China, India, Pakistan, US, and other countries.

Magnetic Partially Filled Pipe or Open Channel Flow Meter

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Open Channel Flow Meter is used to continuously measure the volumetric flow of conductive liquid in open channels, culverts or Partially Filled Pipes.

Open Channel Flow Meter continuously measures fluid flow in open pipelines. Such as semi-pipe flow sewage pipes and large flow pipes without overflow weirs. Magnetic Open Channel or Partially Filled Pipe Flow Meter uses the flow rate-area method. The Open Channel Flow Meter measures the flow rate and level of the fluid in the pipeline. The user only needs to input the inner diameter of the round pipe or the width of the square pipe. The non-full pipe flowmeter will automatically calculate the flow rate. Open Channel Flow Meter can measure and display data such as instantaneous flow, velocity, and cumulative flow. Especially suitable for municipal rainwater, wastewater, sewage discharge and irrigation water pipelines.

Sino-Inst offers a variety of  Magnetic Flow Meters for flow measurement. If you have any questions, please contact our sales engineers.

Request a Quote
Magnetic Flow Meters

Features of Magnetic Partially Filled Pipe or Open Channel Flow Meter

  1. Open Channel Flow Meter can be used for flow measurement of open partially filled pipes (round pipes, rectangular pipes or other special-shaped pipes).
  2. Open Channel Flow Meter can be used for continuous measurement of municipal rainwater, wastewater, sewage discharge and irrigation water pipelines.
  3. Open Channel Flow Meter can realize forward and reverse two-way flow measurement.
  4. The sensor can work reliably for a long time under harsh scenes and sewage water quality.
  5. The measuring range of flow velocity is 0.05-10m/s.
  6. High flow measurement accuracy. Moreover, it is not affected by factors such as downstream, direct flow, obstruction, etc.
  7. Large-screen, backlit LCD. The measurement data can be read clearly under strong light or at night.
  8. The instrument display and output functions are complete. It can display data such as instantaneous flow, flow rate, cumulative flow, and has computer communication interfaces 232, 485 (optional).
  9. With GSM and GPRS wireless data remote transmission function (optional).
  10. With power failure timing, counting and clock functions.

More about : Sewage Flow Meter Selection

Specifications of Magnetic Partially Filled Pipe or Open Channel Flow Meter

Nominal diameterCircular pipe: DN300-DN6000mm
Rectangular pipe: width≤6m≤6m
measurement accuracyWater level: ±2mm
Flow rate: ±1.0%
Flow rate: ±1.5%
Measuring rangeVelocity: 0.05-10m/s
Conductivity of measured medium≥20s/cm
The highest temperature of the measured medium≤60℃
Display deviceLarge screen, backlight LCD. Can display instantaneous flow rate, flow rate, cumulative flow and other measurement data at the same time
Current output signal4-20mA/DC (load resistance≤500Ω)
Pulse output signal1-2000HZ
Digital communication interfaceRs232 and RS485 optional
Wireless data remote transmissionGSM and GPRS optional
Power supply220V/AC or 12v/DC, 24v/DC

Extended reading: Magnetic Large Dia. Pipe Flow Meter

Ultrasonic Open Channel Flow Meter

Ultrasonic open channel flowmeter is used to measure the flow of fluid in the state of free surface of natural flow in a non-full tubular open channel, which is called open channel flow detection.

The measuring tank that is not full is called an open channel. The meter that measures the flow of fluid in the open channel is called an open channel flowmeter.

The ultrasonic open channel flowmeter is composed of three parts: an ultrasonic level gauge, a water measuring tank, and a flow totalizer.

Extended reading: Make Ultrasonic Open Channel Flow Meter Work for You

Open Channel Flow Meter Working Principle

Based on the flow rate-water level algorithm. Advanced flow rate measuring instrument and water level measuring instrument are adopted. A new type of intelligent flow system to ensure the accuracy of speed measurement and calculation. According to the width of the channel and the requirements of measurement accuracy. Adopted. The mathematical model of single probe method or multi-probe method for open channel flow measurement.

The automatic measurement of open channel flow usually adopts the weir level method or the velocity area method.

1. Water level method

The water level method is based on the shape of the open channel and the size of the water flow. A section of flow measuring weir trough is constructed on the open channel. The water level of the weir flow is monitored online. Then the hydraulic formula can be used to calculate the flow through the weir trough.

Water level method Open channel flow meters usually use ultrasonic or microwave radar water level gauges to measure the water level without contact. Ultrasonic or microwave radars use the principle of echo reflection to achieve water level measurement.

2. Velocity area method

The flow velocity area method is a commonly used flow measurement method in open channels. There is no need to build water measuring structures. The flow rate is obtained by measuring the flow velocity and the area of ​​the cross section.

Flow velocity area method Open channel flowmeter is a device for automatic measurement of open channel flow using velocity area method composed of flow indicator, flow meter and liquid level meter.

The flow meter can choose electromagnetic flowmeter or Doppler flow tester. If an electromagnetic flowmeter is selected, the flow rate indicator will convert the flow rate signal into a digital signal proportional to the flow rate signal, thereby realizing the flow rate measurement.

If it is a full tube measurement, then you may need to know: Using of Electromagnetic Flow Meters.

Extended reading: Ultrasonic Insertion Flow Meter for Lined/Large Pipes

More Featured Pipe Flow Meters

  • Magnetic high pressure flow meter
  • Magnetic Large Dia. Pipe Flow Meter
  • Magnetic Battery Operated Flow Meter
  • Insertion-Magnetic-Flow-Meter
  • Liquid mass flow meter
  • 3051ANB Annubar Flow Meter
  • Insertion Vortex Flow Meters
  • Orifice flow meter

Read more about: Shop 101: Key Factors In Selecting A Pipe Flow Meter

Sino-Inst offer over 10 Open Channel Flow Meters, with Best Price.

A wide variety of Open Channel Flow Meters options are available to you, such as free samples, paid samples.

About 13% of these are magnetic flow meter, 14% are Insertion Magnetic Flow Meter, 25% are Venturi flow meter, 13% are Handheld ultrasonic flow meter, and others are Liquid Turbine Flow Meters.

Sino-Inst is Open Channel Flow Meters suppliers, located in China. Open Channel Flow Meters products are most popular in North America, Mid East, and Eastern Europe. The United States, and India, which export 99%, 1%, and 1% of Open Channel Flow Meter respectively.

Magnetic High Pressure Flow Meter

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High pressure flow meter is the first choice for flow measurement under extreme conditions. Such as high pressure and explosion-proof.

High pressure flow meter is produced by using proprietary technology and special process. Magnetic high pressure flow meter is composed of oil high pressure electromagnetic flow sensor and high pressure electromagnetic flow converter. It is specially used to measure the volume flow of conductive liquid or liquid-solid two-phase medium such as aqueous solution, mud, cement slurry, high-pressure water injection under high-pressure conditions. It can withstand up to 42MPa, and there are no obstructive moving parts in the pipe. There is almost no pressure loss. Straight pipes require more low.

Sino-Inst offers a variety of  Magnetic Flow Meters for flow measurement. If you have any questions, please contact our sales engineers.

Request a Quote
Magnetic Flow Meters

Features of Magnetic High Pressure Flow Meter

  • Corrosion resistant all stainless steel material, ABS full mold production probe simple structure
  • Firm, no moving parts, long service life, reliable measurement, strong anti-interference ability
  • Nominal pressure: 6.3, 10, 16, 25, 32, 42MPa
  • Electrode material: stainless steel containing molybdenum, Hastelloy B, Hastelloy C, titanium
  • Not only can be used for general process detection. It is also suitable for the measurement of mineral pulp, paper pulp and paste liquid.
  • Using SMD devices and surface mount (SMT) technology. High circuit reliability;
  • The range can be modified online according to the actual needs of users on site. It can better match the collection terminal;
  • With RS485, RS232, Hart and Modbus, Profibus-DP and other digital communication signal output (optional);
  • With self-check and self-diagnosis, self-diagnosis and alarm functions;
  • Ultra-low EMI switching power supply. Applicable to a wide range of power supply voltage. Good anti-EMI performance.

Specifications of Magnetic High Pressure Flow Meter

Diameter:DN15~150
Lining material:PFA, F46, polyurethane rubber
Electrode material:316L, Hastelloy B, Hastelloy C
medium:Conductive liquid
Media conductivity:>5μS/cm
Matching accuracy level:0.3, 0.5
Flow rate range:0.5m/s~10m/s
Work pressure:10MPa~42MPa
Protection level:IP65, IP67
Supporting converter model:TSM-1, TSM-2
output signal0~10mA DC or 4~20mA DC
communication methodRS485, HART, Modbus, Profibus-DP, GPRS
Explosion-proof markSensor part: ExeiaIICT converter part: ExdIICT4

Guess you like: Magnetic flow meter reference price

Magnetic High Pressure Flow Meter Applications

The high-pressure electromagnetic flowmeter is a meter that measures the volume flow of conductive liquids according to the working principle of Faraday’s law of electromagnetic induction. It is a product of the combination of fluid mechanics and electromagnetics.

The high-pressure electromagnetic flowmeter is a flowmeter for measuring the volume flow of conductive liquid or solid-liquid two-phase medium such as mud, cement slurry, high-pressure water injection under high pressure conditions in geology, petroleum exploration, and oilfield systems. It meets the requirements that ordinary electromagnetic flow cannot reach. High pressure resistance requirements.

The high-pressure electromagnetic flowmeter is composed of a high-pressure electromagnetic flow sensor and an intelligent converter. It can stably and reliably measure the flow of various slurries and liquids under high pressure, high flow rate, pulsating flow and other working conditions. Divided into integral type and split type, mainly used for measuring mud in oilfields, the maximum pressure is above 40MPa.

Application range: Conductive fluid flow in mining energy, steel, petroleum, chemical, electric power, industry, water conservancy, and other sectors. It can also measure acid, alkali, salt and other corrosive conductive liquids.

High Pressure Flow Meter – Turbine

The high-pressure turbine flowmeter adopts full hard alloy (tungsten carbide) shielded cantilever beam structure bearing. It integrates rotating bearing and pressure bearing. It greatly improves the life of the bearing. It can work in a small amount of mud and dirt.

The sensor of the high-pressure turbine flowmeter uses a stainless steel structure. The turbine adopts 2Cr13, which has good corrosion resistance. The use of ruby bearings and cemented carbide (LT6) bushings ensure the service life and long-term stability of the turbine sensor. Samarium-cobalt permanent magnet alloy is used as a signal detector, with strong output signal and good magnetic stability. It can work normally in 0-120℃ medium.

The flowmeter itself has a self-rectifying structure, which is small, light and simple in structure. It can be assembled and disassembled in a short time, which is quite convenient to install and use.

Extended reading: High Pressure Flow Meters for Liquids-Steam-Gas

High Pressure Mass Flow Meter

The principle of Coriolis mass flow meter mass measurement is Newton’s second law F=Ma.
When the fluid flows in the vibrating tube, it will produce Coriolis force proportional to the mass flow. When there is no fluid flowing, the vibrating tube does not produce distortion. The signals detected by the electromagnetic signal detectors on both sides of the vibrating tube are in the same phase.

When fluid passes through, the vibrating tube is twisted under the action of a torque. There will be a phase difference between the two detectors. The transmitter measures the lag time between the left and right detection signals. This time difference is multiplied by the flow calibration coefficient to determine the mass flow.

The density measurement principle of Coriolis mass flowmeter is that the vibration frequency is inversely proportional to the square root of the fluid density, and the fluid density is determined by measuring the vibration frequency. Therefore, the mass flow meter can realize the measurement of fluid mass flow and the measurement of fluid density.

Coriolis mass flow meters are shipped as standard with 1.6MPa and 4MPa. It supports customers’ special customized pressure levels. The highest pressure can reach 100MPa.

More about: Coriolis Flow Meter

More Featured High Pressure Flow Meters

Sino-Inst offer over 20 High Pressure Flow Meters, with Best Price.

A wide variety of High Pressure Flow Meters options are available to you, such as free samples, paid samples.

About 13% of these are magnetic flow meter, 14% are Insertion Magnetic Flow Meter, 25% are Venturi flow meter, 13% are Handheld ultrasonic flow meter, and others are Liquid Turbine Flow Meters.

Sino-Inst is High Pressure Flow Meters suppliers, located in China. High Pressure Flow Meters products are most popular in North America, Mid East, and Eastern Europe. The United States, and India, which export 99%, 1%, and 1% of High Pressure Flow Meters respectively.

Magnetic Large Dia. Pipe Flow Meter

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A pipe Flow Meter is used to measure fluid flow in pipes or open channels. Magnetic Large Dia. Pipe Flow Meter is especially suitable for large diameter pipe measurement.

There are many types of Pipe Flow Meter. For example magnetic, ultrasonic, venturi, etc. A pipe Flow Meter is an induction meter that measures the volume flow of conductive media. Liquids are conductive or water-based. Not only can it be used for general process detection. It is also suitable for the measurement of mineral pulp, paper pulp, and pasty liquids. It can also be made into a plug-in electromagnetic flowmeter. It is widely used in the flow measurement and control of production processes such as water treatment and total control of environmental sewage.

Sino-Inst offers a variety of  Magnetic Flow Meters for flow measurement. If you have any questions, please contact our sales engineers.

Request a Quote
Magnetic Flow Meters

Features of Magnetic Large Dia. Pipe Flow Meter

  • There are no flow obstructions in the measuring tube. No pressure loss, lower requirements for straight pipe sections;
  • Series nominal diameters are DN15~DN3800. There are many choices of sensor lining and electrode materials;
  • The converter adopts a novel excitation method. Low power consumption, stable zero point and high accuracy. The flow range can reach 1500:1;
  • The converter and the sensor can be integrated or separated;
  • The converter uses a 16-bit high-performance microprocessor. 2x16LCD display. Convenient parameter setting. Reliable programming;
  • The flowmeter is a two-way measuring system with three totalizers inside. Forward total, reverse total, and difference total. Can display positive and negative flow. And has a variety of outputs: current, pulse, digital communication, HART;
  • The converter uses surface mount technology (SMT). With self-check and self-diagnosis function
  • The measurement is not affected by changes in fluid density, viscosity, temperature, pressure and conductivity;

Specifications of Magnetic Large Dia. Pipe Flow Meter

Caliber:DN350-DN3800
Accuracy:± 1.5% measured value standard ± 1.0% measured value special ± 0.5% measured value high precision
Conductivity :5μs/cm
Measuring range :Recommended use range: 0.5m/s~10m/s continuously adjustable
Use range: 0.2m/s~15m/s continuously adjustable
Medium temperature:-20- +150℃
Ambient temperature:-20- +60℃
Fluid pressure:≤ 1.6MPa
Protection level:Sensor    Converter
IP67    IP67
IP68    IP67
Material quality:The probe material is 304 stainless steel, the electrode material is 316 stainless steel, and the insulation layer is PTFE.
Electrical Interface :M20×1.5,1/2〞NPT
Display method :Standard two-line LCD display, which can display instantaneous and cumulative flow at the same time.
power supply:220VAC 50HZ 24VDC
Explosion-proof grade:Exd[ia]iam ll CT5
Signal output:1. The switch value can be set as pulse output (1000HZ);
High/low flow alarm;
ATC alarm;
Flow direction indication;
error alarm;
2. Current output: 4-20mA output. 
Configuration method:1. Configure on-site through three manual keys.
2. On-site configuration via remote control. To
3. Perform on-site configuration through the handheld communicator. To
Memory: EEPROM is a memory that will not disappear, without battery storage. 

Know more about: How electromagnetic flowmeters work?

Advantages of Magnetic Large Dia. Pipe Flow Meter

  1. Corrosion-resistant all stainless steel material ABS full mold production probe. The structure is simple, firm, and has no moving parts. long lasting;
  2. Small pressure loss;
  3. Small size, light weight, convenient installation and low maintenance;
  4. Reliable measurement. Strong anti-interference ability;
  5. Large measuring range. The measurement is not affected by changes in temperature, density, pressure, viscosity, conductivity, etc.;
  6. It can be installed and disassembled under continuous flow. It brings convenience to the user’s maintenance.
  7. Compared with the general electromagnetic flowmeter, the manufacturing cost and installation cost are lower. Especially suitable for large and medium diameter pipeline flow measurement.

Pipe Flow Meter Types

Flow Metering Principals

  • Differential Pressure Flowmeters
  • Velocity Flowmeters
  • Positive Displacement Flowmeters
  • Mass Flowmeters
  • For Open Channel Flowmeters – weirs, flumes, submerged orifices, current meters, acoustic flow meters and more

Read more about: Shop 101: Key Factors In Selecting A Pipe Flow Meter

For different working principles, We offer different types of flow meters, like:

  • Differential Pressure Flow Meters
  • Orifice Plate
  • Venturi Tube
  • Flow Nozzles
  • The Sonic Nozzle – Critical (Choked) Flow Nozzle
  • Calorimetric Flowmeter
  • Ultrasonic Doppler Flowmeter
  • Positive Displacement Flowmeter
  • Variable Area Flowmeter or Rotameter
  • Velocity Flowmeters
  • Pitot Tubes
  • Electromagnetic Flowmeter
  • Turbine Flowmeter
  • Vortex Flow Meter
  • Thermal Flowmeter
  • Coriolis Flowmeter
  • Mass Flowmeters
  • Open Channel Flowmeters

Featured Large Pipe Flow Meters

Liquid Flow Meter

When measuring the liquid flow of large-diameter pipes, the following factors should be considered when choosing a flow meter:

  • The pressure loss should be as small as possible;
  • Due to the low flow rate (to reduce operating costs), the inner wall of the pipeline is easy to deposit dirt and sludge;
  • The measurement range of the flowmeter used should be particularly large to adapt to the disparity of browsing in different time periods;
  • The protection level of the flowmeter should also meet the requirements of the environment.

There are several types of flow meters commonly used to measure liquid flow in large-diameter pipes.

The electromagnetic flowmeter is made according to Faraday’s law of electromagnetic induction. It is widely used in the flow measurement of various conductive liquids in industrial processes.

The main features of electromagnetic flowmeter are as follows:

  • There are no moving parts in the pipeline, no flow blocking parts, and almost no additional pressure loss during measurement.
  • The measurement results have nothing to do with physical parameters such as flow velocity distribution, fluid pressure, temperature, density, and viscosity.
  • High measurement accuracy and large measurement range (up to 200:1).
  • The straight pipe section has relatively low requirements and is easy to meet.
  • There are products with large diameter and meeting protection requirements.
  • The price of large-caliber products is higher, and the larger the caliber, the faster the price increase.

Insertion Magnetic Flow Meter

Magnetic Water Flow Meter
Remote Magnetic Sewage Flow Meter
Magnetic Battery Operated Flow Meter

Ultrasonic flowmeters are made by using the original that the propagation speed of sound waves in a static fluid is different from the propagation speed in a flowing fluid. It can measure both conductive media and non-conductive media.

Extended reading: Ultrasonic Insertion Flow Meter for Lined/Large Pipes

The main features of ultrasonic flowmeter are as follows:

  • The probe can be installed on the outside of the pipeline (outer clamp type). It does not hinder the flow of fluid in the pipeline to reduce pressure loss.
  • The measurement accuracy is related to the diameter of the pipe. The larger the pipe diameter, the higher the accuracy possible (multiple sound segments are used).
Ultrasonic Clamp on Flow Meter

Portable ultrasonic flowmeter

Handheld ultrasonic flow meter

HS-2000 Ultrasonic Tank Level Sensor-External Mounted

In occasions where the measurement accuracy is not high, insertion flowmeters can be used to measure large flows. Because the main advantage of the plug-in flowmeter is low price (only a fraction of other structures). And this kind of flowmeter is light in weight, small in pressure loss, and easy to install and maintain.

Common ones include insertion vortex flowmeter, insertion turbine flowmeter, insertion ultrasonic flowmeter, and insertion electromagnetic flowmeter.

In occasions where the measurement accuracy is not high, insertion flowmeters can be used to measure large flows. Because the main advantage of the plug-in flowmeter is low price (only a fraction of other structures). And this kind of flowmeter is light in weight, small in pressure loss, and easy to install and maintain.

Common ones include insertion vortex flowmeter, insertion turbine flowmeter, insertion ultrasonic flowmeter, and insertion electromagnetic flowmeter.

Insertion Magnetic Flow Meter
Insertion Vortex Flow Meters
Insertion Turbine Flow Meter
Thermal mass flowmeters

Gas Flow Meter

The flow meters commonly used to measure gas flow in large-diameter pipelines are as follows:

The standard orifice flowmeter is a widely used flowmeter. The advantage of the standard orifice flowmeter is that it is simple to manufacture and can be used directly without real flow calibration.

Gas Thermal Mass Flow Meter

The sensor part of the thermal gas mass flowmeter consists of two reference-level platinum resistance temperature sensors. A bridging loop is used.

One sensor measures the fluid temperature. The other sensor is a heating element to maintain a constant temperature difference higher than the fluid temperature. That is, the gas flow The heat is taken away when passing the heating element.

The heat taken away is proportional to the flow rate of the gas and the density of the gas. In order to maintain a fixed temperature difference between the two temperature sensors, the circuit needs to provide more power to the heating element. The output power in the circuit is related to the quality of the fluid, and thus the flow rate is measured.

The insertion vortex flowmeter is mainly used for the flow measurement of industrial pipeline medium fluid. Such as gas, liquid, vapor, and other media. The plug-in vortex flowmeter adopts a piezoelectric stress sensor with high reliability. It can work in the working temperature range of -20℃~+350℃. There are analog standard signals and digital pulse signal output.

One of the standard throttling parts of the standard venturi piping system. It is equipped with a differential pressure instrument to measure the volume flow of a single-phase stable fluid (liquid, gas, or vapor) in a closed pipeline.

Because of its simple structure and reliable work, it has been widely used in chemical, petroleum, light industry, medicine, fertilizer, metallurgical, and other industrial sectors.

Frequently
Asked
Questions

Help Center

In simple terms, there are two ways to measure the flow of pipelines. Change the pipeline or leave the pipeline unchanged.

(1) Cut off the pipeline first. Then install a flow meter. Calculate the flow rate in a certain period of time through the cross-section and the flow velocity.
(2) Use non-contact sensors. Mount the sensor outside the clamp. Then measure the pipe flow.

Read more about: 5 Factors Affecting Pressure Drop

flow meter (or flow sensor) is an instrument used to measure the linear, nonlinear, mass, or volumetric flow rate of a liquid or a gas. When choosing flow meters, one should consider such intangible factors as familiarity of plant personnel, their experience with calibration and maintenance, spare parts availability, and mean time between failure history, etc., at the particular plant site. It is also recommended that the cost of the installation be computed only after taking these steps.

Flowmeter location: Flow meters are installed between the master valve and zone valves. To avoid false alerts, there should be no water taps or other uncontrolled water use on the downstream side of the flow meter.

Sino-Inst offers over 50 Pipe Flow Meters, at the Best Price.

A wide variety of Pipe Flow Meters options are available to you, such as free samples, paid samples.

About 13% of these are magnetic flow meters, 14% are Insertion Magnetic Flow Meter, 25% are Venturi flow meters, 13% are Handheld ultrasonic flow meters, and others are Liquid Turbine Flow Meters.

Sino-Inst is Pipe Flow Meters supplier, located in China. Sewage Flow Meters products are most popular in North America, Mid East, and Eastern Europe. The United States, and India, which export 99%, 1%, and 1% of Pipe Flow Meter respectively.

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