FMG-W Wireless Type: Smart Electromagnetic Flowmeter

• Operation interface: mobile APP (Android, iOS)
• Intelligent intelligent LCD display function
• Display interface: English or Chinese
• Easy to set up and install/various size range.
• High accuracy: ±1.5% of reading (RD)
• Flow direction function: forward or reverse
• Alarm function: excitation, no liquid pipe alarm.
• Installation method: adjustable and flanged.

/Introduction to the principle of electromagnetic flowmeter/

Electromagnetic Flowmeters (EMF for short) is a new type of flow measuring instrument developed rapidly with the development of electronic technology in the 1950s and 1960s. Electromagnetic flowmeter is an instrument that uses the principle of electromagnetic induction to measure the flow of conductive fluid according to the electromotive force induced by the conductive fluid passing through an external magnetic field.

 

The principle of electromagnetic flowmeter is based on Faraday's law of electromagnetic induction. When the conductor moves in the magnetic field to cut the magnetic field lines, an induced potential will be generated in the conductor, and the magnitude of the induced potential is proportional to the effective length of the conductor in the magnetic field and the speed of the conductor in the magnetic field perpendicular to the direction of the magnetic field. In the same way, when the conductive fluid flows in the vertical direction in the magnetic field and cuts the magnetic induction line, an induced potential will also be generated on the electrodes on both sides of the pipe.

The volume flow rate is equal to the product of the fluid velocity v and the pipe cross-sectional area (πD²)/4. When the pipe diameter D is fixed and the magnetic induction intensity B is kept constant, the measured volume flow rate has a linear relationship with the induced potential. If an electrode is inserted on both sides of the pipe, an induced potential can be introduced, and the volume flow can be obtained by measuring the magnitude of this potential.

1. Structure of electromagnetic flowmeter

The structure of electromagnetic flowmeter is mainly composed of magnetic circuit system, measuring conduit, electrode, shell, lining and converter.

 

 

1. Electrode sensor system: its function is to generate a uniform DC or AC magnetic field. The DC magnetic circuit is realized by a permanent magnet, which has the advantages of simple structure and less interference by the AC magnetic field, but it is easy to polarize the electrolyte liquid in the measuring catheter, so that the positive electrode is surrounded by negative ions, and the negative electrode is surrounded by positive ions. Surrounding, that is, the polarization phenomenon of the electrodes, and leads to an increase in the internal resistance between the two electrodes, thus seriously affecting the normal operation of the instrument. When the diameter of the pipeline is large, the permanent magnet is correspondingly large, cumbersome and uneconomical, so the electromagnetic flowmeter generally adopts an alternating magnetic field, and is generated by the excitation of a 50HZ power frequency power supply.

2. Lining: There is a complete electrical insulating lining on the inner side of the measuring conduit and the sealing surface of the flange. It directly contacts the liquid to be measured, and its function is to increase the corrosion resistance of the measuring conduit and prevent the induced potential from being short-circuited by the wall of the metal measuring conduit. Lining materials are mostly corrosion-resistant, high-temperature-resistant, wear-resistant PTFE plastics, ceramics, etc.

3. Converter: The induced potential signal generated by the liquid flow is very weak and is greatly affected by various interference factors. The function of the converter is to amplify and convert the induced potential signal into a unified standard signal and suppress the main interference signal. Its task is to amplify and convert the induced potential signal Ex detected by the electrode into a unified standard DC signal.

4. Measuring catheter: its function is to let the measured conductive liquid pass through. In order to make the magnetic flux be shunted or short-circuited when the magnetic field line passes through the measuring conduit, the measuring conduit must be made of materials with non-magnetic conductivity, low electrical conductivity, low thermal conductivity and certain mechanical strength. Plastic, aluminum, etc.

5. Electrode: Its function is to draw out the induced potential signal proportional to the measured value. The electrodes are generally made of non-magnetic stainless steel and are required to be flush with the lining so that the fluid can pass unobstructed. Its installation position should be in the vertical direction of the pipeline to prevent sediment from accumulating on it and affecting the measurement accuracy.

6. Shell: Made of ferromagnetic material, it is the outer cover of the excitation coil of the distribution system, and isolates the interference of external magnetic fields.

Second, the principle of electromagnetic flowmeter

1. Basic principles

The basic principle of electromagnetic flowmeter is based on Faraday's law of electromagnetic induction

 

Working principle of electromagnetic flowmeter: According to the electromagnetic induction principle of flange, a pair of detection electrodes are installed on the pipe wall which is perpendicular to the axis of the measuring tube and the line of magnetic force. When the conductive liquid moves along the axis of the measuring tube, the conductive liquid cuts The magnetic line of force generates an induced potential, which is detected by two detection electrodes. The value is proportional to the flow rate, and its value is: E=B*V*D*K

The sensor transmits the induced electromotive force as a flow signal to the converter. After signal processing such as amplification, conversion filtering, etc., the instantaneous flow and cumulative flow are displayed by a dot-matrix liquid crystal with backlight.

E : Induced electromotive force

K : meter constant

B : Magnetic induction intensity

D : Measuring tube diameter

V : average flow velocity

 

2. Three important concepts

(1) Only conductive medium can be measured

Conductivity limitation б≥ 1-5us/cm (water>20us/cm)

(Use special meter for low conductivity)

Cannot measure non-conductive medium, such as gas, oil, such as medium containing a large amount of

gas, producing severe fluctuations in measurement

(2) There must be a magnetic field

The excitation current flows through the upper and lower excitation coils of the measuring tube to generate a magnetic field. Excitation coil open circuit,

The flowmeter does not work, and the stability of the excitation current directly affects the measurement of the instrument

The measuring tube must be a non-magnetic material to ensure that the magnetic field passes through the tube

(Measuring tube should be made of stainless steel)

(3) The actual measured value is the fluid flow rate

The electromagnetic flowmeter actually measures the flow rate of the medium (it is the velocity is the flowmeter)

Measuring the volume flow of a medium

Proficient in flow rate conversion

Electromagnetic flowmeter installation

3. Two important parts

Sensors and secondary instruments are two essential components of electromagnetic flowmeters.

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Biogas flow meter

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