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Technical data, 1 measuring principle – KROHNE WATERFLUX 3000 EN User Manual

Page 24

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6

TECHNICAL DATA

24

WATERFLUX 3000

www.krohne.com

06/2013 - 400162663 - HB WATERFLUX 3000 R04 en

6.1 Measuring principle

An electrically conductive fluid flows inside an electrically insulated pipe through a magnetic
field. This magnetic field is generated by a current, flowing through a pair of field coils.
Inside of the fluid, a voltage U is generated:

U = v * k * B * D

U = v * k * B * D

U = v * k * B * D

U = v * k * B * D

in which:
v = mean flow velocity
k = factor correcting for geometry
B = magnetic field strength
D = inner diameter of flow meter

The signal voltage U is picked off by electrodes and is proportional to the mean flow velocity v
and thus the flow rate q. A signal converter is used to amplify the signal voltage, filter it and
convert it into signals for totalising, recording and output processing.

Rectangular cross section

Rectangular cross section

Rectangular cross section

Rectangular cross section

The minimal height of the measuring tube decreases the distance between the field coils (4),
resulting in a stronger and more homogeneous magnetic field (3). In addition, the mean flow
velocity v increases due to the rectangular and reduced cross section. The large electrode
spacing (D) and the increased flow velocity results in a higher magnetic signal voltage, also in
the presence of a low flow rate.

1 Induced voltage (proportional to flow velocity)
2 Electrodes
3 Magnetic field
4 Field coils