Principle of operation – Toshiba GF632 User Manual

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8. Principle of Operation

The operating principle of the electromagnetic flowmeter is based on Faraday's Law of electromagnetic
induction and it is designed to measure the volumetric flow rate of fluid. An insulated pipe of diameter D is
placed vertically to the direction of a magnetic field with flux density

B

(see

Figure

8.1).

When

an

electrically

conductive

fluid

flows

in

the

pipe,

an

electrode voltage

E

is

induced

between

a

pair

of

electrodes

placed

at

right

angles

to

the

direction

of

magnetic

field.

The

electrode

voltage

E

is

directly proportional to the average fluid

velocity V.

The following expression is applicable to the voltage.

E = K × B × D × V [V] ........ (Eq. 8.1)


Volumetric flow rate Q [m

3

/s] is:

Q = × V ................(Eq. 8.2)

Using the Equation 8.1 and 8.2

E = K × B × D Ч Ч Q

E = × Q ............(Eq. 8.3)

Therefore, volumetric flow rate is directly proportional to the induced voltage.

Figure 8.1 Principle of Operation

The GF630/LF600F, GF630/LF610F and GF632 use the square-wave excitation method, which

provides long-term

stable operation. With square-wave excitation, the GF630/LF600F, GF630/LF610F and GF632 offers reliable
measurement without being affected by electrostatic or electromagnetic interference, or electrochemical
polarization between the electrodes and the fluid to be measured.

E = induced electrode voltage [V]
K = constant

B = magnetic flux density [T]

D = meter pipe diameter [m]

V = fluid velocity [m/s]

π × D²

4

4
π × D²

4 × K × B

π × D

Square-Wave Excitation

B

V

E

D