Function – Atec Flexim-G601 User Manual

TSFLUXUS_G601V1-5-1US_Lus, 2014-02-25

3

Technical Specification

FLUXUS® G601

Function

Measurement Principle

In order to measure the flow of a medium in a pipe, ultrasonic signals are used, employing the transit time dif-

ference principle. Ultrasonic signals are emitted by a transducer installed on the pipe and received by a sec-

ond transducer. These signals are emitted alternately in the flow direction and against it.
As the medium in which the signals propagate is flowing, the transit time of the ultrasonic signals in the flow

direction is shorter than against the flow direction.
The transit time difference, ∆t, is measured and allows the flowmeter to determine the average flow velocity

along the propagation path of the ultrasonic signals. A flow profile correction is then performed in order to ob-

tain the area averaged flow velocity, which is proportional to the volumetric flow rate.
Two integrated microprocessors control the entire measuring process. This allows the flowmeter to remove

disturbance signals, and to check each received ultrasonic wave for its validity which reduces noise.

Calculation of Volumetric Flow Rate

= k

Re

.

A

.

k

a

.

∆t/(2

.

t

fl

)

where

Path of the ultrasonic signal Transit time difference ∆t

=

volumetric flow rate

k

Re

=

fluid mechanics calibration factor

A

=

cross-sectional pipe area

k

a

=

acoustical calibration factor

∆t

=

transit time difference

t

fl

=

transit time in the medium

t

0

t

1

t

2

V·

V·